%PDF-1.5
%âãÏÓ
1 0 obj<>
endobj
2 0 obj<>
endobj
3 0 obj<>
endobj
5 0 obj null
endobj
6 0 obj<>
endobj
7 0 obj<>
endobj
8 0 obj<>>>
endobj
9 0 obj<>
endobj
10 0 obj<><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><>]/C/SpdrArt/P 9 0 R/S/Article/Pg 11 0 R>>
endobj
11 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 0>>
endobj
12 0 obj<>
endobj
13 0 obj[10 0 R]
endobj
14 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 1>>
endobj
15 0 obj[10 0 R]
endobj
16 0 obj<>/Subtype/Link/A<>/PA<>>>
endobj
17 0 obj[16 0 R 18 0 R 19 0 R 20 0 R 21 0 R 22 0 R 23 0 R 24 0 R 25 0 R 26 0 R 27 0 R 28 0 R 29 0 R]
endobj
18 0 obj<>/Subtype/Link/A<>/PA<>>>
endobj
19 0 obj<>/Subtype/Link/A<>/PA<>>>
endobj
20 0 obj<>/Subtype/Link/A<>/PA<>>>
endobj
21 0 obj<>/Subtype/Link/A<>/PA<>>>
endobj
22 0 obj<>/Subtype/Link/A<>/PA<>>>
endobj
23 0 obj<>/Subtype/Link/A<>/PA<>>>
endobj
24 0 obj<>/Subtype/Link/A<>/PA<>>>
endobj
25 0 obj<>/Subtype/Link/A<>/PA<>>>
endobj
26 0 obj<>/Subtype/Link/A<>/PA<>>>
endobj
27 0 obj<>/Subtype/Link/A<>/PA<>>>
endobj
28 0 obj<>/Subtype/Link/A<>/PA<>>>
endobj
29 0 obj<>/Subtype/Link/A<>/PA<>>>
endobj
30 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 2>>
endobj
31 0 obj[10 0 R]
endobj
32 0 obj<>/Subtype/Link/A<>/PA<>>>
endobj
33 0 obj[32 0 R 34 0 R 35 0 R 36 0 R 37 0 R 38 0 R 39 0 R 40 0 R 41 0 R 42 0 R 43 0 R 44 0 R 45 0 R 46 0 R]
endobj
34 0 obj<>/Subtype/Link/A<>/PA<>>>
endobj
35 0 obj<>/Subtype/Link/A<>/PA<>>>
endobj
36 0 obj<>/Subtype/Link/A<>/PA<>>>
endobj
37 0 obj<>/Subtype/Link/A<>/PA<>>>
endobj
38 0 obj<>/Subtype/Link/A<>/PA<>>>
endobj
39 0 obj<>/Subtype/Link/A<>/PA<>>>
endobj
40 0 obj<>/Subtype/Link/A<>/PA<>>>
endobj
41 0 obj<>/Subtype/Link/A<>/PA<>>>
endobj
42 0 obj<>/Subtype/Link/A<>/PA<>>>
endobj
43 0 obj<>/Subtype/Link/A<>/PA<>>>
endobj
44 0 obj<>/Subtype/Link/A<>/PA<>>>
endobj
45 0 obj<>/Subtype/Link/A<>/PA<>>>
endobj
46 0 obj<>/Subtype/Link/A<>/PA<>>>
endobj
47 0 obj<>
endobj
48 0 obj<>
endobj
49 0 obj[30 0 R/XYZ 0 167.754166 null]
endobj
50 0 obj[30 0 R/XYZ 0 167.754166 null]
endobj
51 0 obj[30 0 R/XYZ 0 167.754166 null]
endobj
52 0 obj[30 0 R/XYZ 0 167.754166 null]
endobj
53 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 3>>
endobj
54 0 obj[10 0 R]
endobj
55 0 obj[53 0 R/XYZ 0 152.21312 null]
endobj
56 0 obj[53 0 R/XYZ 0 152.21312 null]
endobj
57 0 obj[53 0 R/XYZ 0 152.21312 null]
endobj
58 0 obj[53 0 R/XYZ 0 152.21312 null]
endobj
59 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 4>>
endobj
60 0 obj[10 0 R]
endobj
61 0 obj[59 0 R/XYZ 0 308.400879 null]
endobj
62 0 obj[59 0 R/XYZ 0 308.400879 null]
endobj
63 0 obj[59 0 R/XYZ 0 308.400879 null]
endobj
64 0 obj[59 0 R/XYZ 0 308.400879 null]
endobj
65 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 5>>
endobj
66 0 obj[10 0 R]
endobj
67 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 6>>
endobj
68 0 obj[10 0 R]
endobj
69 0 obj[67 0 R/XYZ 0 379.4328 null]
endobj
70 0 obj[67 0 R/XYZ 0 379.4328 null]
endobj
71 0 obj[67 0 R/XYZ 0 379.4328 null]
endobj
72 0 obj[67 0 R/XYZ 0 379.4328 null]
endobj
73 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 7>>
endobj
74 0 obj[10 0 R]
endobj
75 0 obj[73 0 R/XYZ 0 24.940063 null]
endobj
76 0 obj[73 0 R/XYZ 0 24.940063 null]
endobj
77 0 obj[73 0 R/XYZ 0 24.940063 null]
endobj
78 0 obj[73 0 R/XYZ 0 24.940063 null]
endobj
79 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 8>>
endobj
80 0 obj[10 0 R]
endobj
81 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 9>>
endobj
82 0 obj[10 0 R]
endobj
83 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 10>>
endobj
84 0 obj<>
endobj
85 0 obj<>
endobj
86 0 obj<>
endobj
87 0 obj<>
endobj
88 0 obj<>
endobj
89 0 obj<>
endobj
90 0 obj<>
endobj
93 0 obj[10 0 R]
endobj
94 0 obj[83 0 R/XYZ 0 154.821991 null]
endobj
95 0 obj[83 0 R/XYZ 0 154.821991 null]
endobj
96 0 obj[83 0 R/XYZ 0 154.821991 null]
endobj
97 0 obj[83 0 R/XYZ 0 154.821991 null]
endobj
98 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 11>>
endobj
99 0 obj<>
endobj
100 0 obj<>
endobj
101 0 obj<>
endobj
102 0 obj<>
endobj
103 0 obj<>
endobj
104 0 obj<>
endobj
107 0 obj[10 0 R]
endobj
108 0 obj[98 0 R/XYZ 0 544.505005 null]
endobj
109 0 obj[98 0 R/XYZ 0 544.505005 null]
endobj
110 0 obj[98 0 R/XYZ 0 544.505005 null]
endobj
111 0 obj[98 0 R/XYZ 0 544.505005 null]
endobj
112 0 obj[98 0 R/XYZ 0 493.084351 null]
endobj
113 0 obj[98 0 R/XYZ 0 493.084351 null]
endobj
114 0 obj[98 0 R/XYZ 0 493.084351 null]
endobj
115 0 obj[98 0 R/XYZ 0 493.084351 null]
endobj
116 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 12>>
endobj
119 0 obj[10 0 R]
endobj
120 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 13>>
endobj
121 0 obj<>
endobj
122 0 obj<>
endobj
125 0 obj[10 0 R]
endobj
126 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 14>>
endobj
129 0 obj[10 0 R]
endobj
130 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 15>>
endobj
131 0 obj<>
endobj
134 0 obj[10 0 R]
endobj
135 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 16>>
endobj
136 0 obj<>
endobj
137 0 obj<>
endobj
140 0 obj[10 0 R]
endobj
141 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 17>>
endobj
144 0 obj[10 0 R]
endobj
145 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 18>>
endobj
148 0 obj[10 0 R]
endobj
149 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 19>>
endobj
152 0 obj[10 0 R]
endobj
153 0 obj[149 0 R/XYZ 0 127.351898 null]
endobj
154 0 obj[149 0 R/XYZ 0 127.351898 null]
endobj
155 0 obj[149 0 R/XYZ 0 127.351898 null]
endobj
156 0 obj[149 0 R/XYZ 0 127.351898 null]
endobj
157 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 20>>
endobj
158 0 obj<>
endobj
161 0 obj[10 0 R]
endobj
162 0 obj[157 0 R/XYZ 0 542.565125 null]
endobj
163 0 obj[157 0 R/XYZ 0 491.144409 null]
endobj
164 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 21>>
endobj
167 0 obj[10 0 R]
endobj
168 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 22>>
endobj
171 0 obj[10 0 R]
endobj
172 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 23>>
endobj
175 0 obj[10 0 R]
endobj
176 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 24>>
endobj
179 0 obj[10 0 R]
endobj
180 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 25>>
endobj
181 0 obj<>
endobj
184 0 obj[10 0 R]
endobj
185 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 26>>
endobj
188 0 obj[10 0 R]
endobj
189 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 27>>
endobj
192 0 obj[10 0 R]
endobj
193 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 28>>
endobj
196 0 obj[10 0 R]
endobj
197 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 29>>
endobj
200 0 obj[10 0 R]
endobj
201 0 obj[197 0 R/XYZ 0 552.866516 null]
endobj
202 0 obj[197 0 R/XYZ 0 552.866516 null]
endobj
203 0 obj[197 0 R/XYZ 0 552.866516 null]
endobj
204 0 obj[197 0 R/XYZ 0 552.866516 null]
endobj
205 0 obj[197 0 R/XYZ 0 501.445862 null]
endobj
206 0 obj[197 0 R/XYZ 0 501.445862 null]
endobj
207 0 obj[197 0 R/XYZ 0 501.445862 null]
endobj
208 0 obj[197 0 R/XYZ 0 501.445862 null]
endobj
209 0 obj[197 0 R/XYZ 0 449.76416 null]
endobj
210 0 obj[197 0 R/XYZ 0 449.76416 null]
endobj
211 0 obj[197 0 R/XYZ 0 449.76416 null]
endobj
212 0 obj[197 0 R/XYZ 0 449.76416 null]
endobj
213 0 obj[197 0 R/XYZ 0 398.343475 null]
endobj
214 0 obj[197 0 R/XYZ 0 398.343475 null]
endobj
215 0 obj[197 0 R/XYZ 0 398.343475 null]
endobj
216 0 obj[197 0 R/XYZ 0 398.343475 null]
endobj
217 0 obj[197 0 R/XYZ 0 169.552399 null]
endobj
218 0 obj[197 0 R/XYZ 0 169.552399 null]
endobj
219 0 obj[197 0 R/XYZ 0 169.552399 null]
endobj
220 0 obj[197 0 R/XYZ 0 169.552399 null]
endobj
221 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 30>>
endobj
222 0 obj<>
endobj
225 0 obj[221 0 R/XYZ 0 591.290344 null]
endobj
226 0 obj[221 0 R/XYZ 0 591.290344 null]
endobj
227 0 obj[221 0 R/XYZ 0 591.290344 null]
endobj
228 0 obj[221 0 R/XYZ 0 591.290344 null]
endobj
229 0 obj[10 0 R]
endobj
230 0 obj[221 0 R/XYZ 0 539.869629 null]
endobj
231 0 obj[221 0 R/XYZ 0 539.869629 null]
endobj
232 0 obj[221 0 R/XYZ 0 539.869629 null]
endobj
233 0 obj<>
endobj
235 0 obj[221 0 R/XYZ 0 539.869629 null]
endobj
236 0 obj[221 0 R/XYZ 0 488.448975 null]
endobj
237 0 obj[221 0 R/XYZ 0 488.448975 null]
endobj
238 0 obj[221 0 R/XYZ 0 488.448975 null]
endobj
239 0 obj[221 0 R/XYZ 0 488.448975 null]
endobj
240 0 obj[221 0 R/XYZ 0 437.02832 null]
endobj
241 0 obj[221 0 R/XYZ 0 437.02832 null]
endobj
242 0 obj[221 0 R/XYZ 0 437.02832 null]
endobj
243 0 obj[221 0 R/XYZ 0 437.02832 null]
endobj
244 0 obj[221 0 R/XYZ 0 385.607605 null]
endobj
245 0 obj[221 0 R/XYZ 0 385.607605 null]
endobj
246 0 obj[221 0 R/XYZ 0 385.607605 null]
endobj
247 0 obj[221 0 R/XYZ 0 385.607605 null]
endobj
248 0 obj[221 0 R/XYZ 0 282.766235 null]
endobj
249 0 obj[221 0 R/XYZ 0 282.766235 null]
endobj
250 0 obj[221 0 R/XYZ 0 282.766235 null]
endobj
251 0 obj[221 0 R/XYZ 0 282.766235 null]
endobj
252 0 obj[221 0 R/XYZ 0 179.288818 null]
endobj
253 0 obj[221 0 R/XYZ 0 179.288818 null]
endobj
254 0 obj[221 0 R/XYZ 0 179.288818 null]
endobj
255 0 obj[221 0 R/XYZ 0 179.288818 null]
endobj
256 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 31>>
endobj
259 0 obj[10 0 R]
endobj
260 0 obj[256 0 R/XYZ 0 79.793182 null]
endobj
261 0 obj[256 0 R/XYZ 0 79.793182 null]
endobj
262 0 obj[256 0 R/XYZ 0 79.793182 null]
endobj
263 0 obj[256 0 R/XYZ 0 79.793182 null]
endobj
264 0 obj[256 0 R/XYZ 0 28.372498 null]
endobj
265 0 obj[256 0 R/XYZ 0 28.372498 null]
endobj
266 0 obj[256 0 R/XYZ 0 28.372498 null]
endobj
267 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 32>>
endobj
270 0 obj[10 0 R]
endobj
271 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 33>>
endobj
274 0 obj[10 0 R]
endobj
275 0 obj[271 0 R/XYZ 0 231.015594 null]
endobj
276 0 obj[271 0 R/XYZ 0 231.015594 null]
endobj
277 0 obj[271 0 R/XYZ 0 231.015594 null]
endobj
278 0 obj[271 0 R/XYZ 0 231.015594 null]
endobj
279 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 34>>
endobj
282 0 obj[10 0 R]
endobj
283 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 35>>
endobj
284 0 obj<>
endobj
287 0 obj[10 0 R]
endobj
288 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 36>>
endobj
291 0 obj[10 0 R]
endobj
292 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 37>>
endobj
295 0 obj[10 0 R]
endobj
296 0 obj[292 0 R/XYZ 0 158.564941 null]
endobj
297 0 obj[292 0 R/XYZ 0 158.564941 null]
endobj
298 0 obj[292 0 R/XYZ 0 158.564941 null]
endobj
299 0 obj[292 0 R/XYZ 0 158.564941 null]
endobj
300 0 obj[292 0 R/XYZ 0 107.144257 null]
endobj
301 0 obj[292 0 R/XYZ 0 107.144257 null]
endobj
302 0 obj[292 0 R/XYZ 0 107.144257 null]
endobj
303 0 obj[292 0 R/XYZ 0 107.144257 null]
endobj
304 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 38>>
endobj
307 0 obj[10 0 R]
endobj
308 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 39>>
endobj
311 0 obj[10 0 R]
endobj
312 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 40>>
endobj
313 0 obj<>
endobj
314 0 obj<>
endobj
315 0 obj<>
endobj
318 0 obj[10 0 R]
endobj
319 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 41>>
endobj
322 0 obj[10 0 R]
endobj
323 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 42>>
endobj
326 0 obj[10 0 R]
endobj
327 0 obj[323 0 R/XYZ 0 331.931274 null]
endobj
328 0 obj[323 0 R/XYZ 0 331.931274 null]
endobj
329 0 obj<>
endobj
331 0 obj[323 0 R/XYZ 0 331.931274 null]
endobj
332 0 obj[323 0 R/XYZ 0 331.931274 null]
endobj
333 0 obj[323 0 R/XYZ 0 203.379547 null]
endobj
334 0 obj[323 0 R/XYZ 0 177.669205 null]
endobj
335 0 obj[323 0 R/XYZ 0 151.958862 null]
endobj
336 0 obj[323 0 R/XYZ 0 126.24852 null]
endobj
337 0 obj[323 0 R/XYZ 0 100.538193 null]
endobj
338 0 obj[323 0 R/XYZ 0 74.82785 null]
endobj
339 0 obj[323 0 R/XYZ 0 49.117508 null]
endobj
340 0 obj[323 0 R/XYZ 0 23.407166 null]
endobj
341 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 43>>
endobj
344 0 obj[10 0 R]
endobj
345 0 obj[341 0 R/XYZ 0 568.289673 null]
endobj
346 0 obj[341 0 R/XYZ 0 542.579346 null]
endobj
347 0 obj[341 0 R/XYZ 0 516.868958 null]
endobj
348 0 obj[341 0 R/XYZ 0 491.15863 null]
endobj
349 0 obj[341 0 R/XYZ 0 465.448303 null]
endobj
350 0 obj[341 0 R/XYZ 0 439.737976 null]
endobj
351 0 obj[341 0 R/XYZ 0 414.027618 null]
endobj
352 0 obj[341 0 R/XYZ 0 388.317261 null]
endobj
353 0 obj[341 0 R/XYZ 0 362.606934 null]
endobj
354 0 obj[341 0 R/XYZ 0 336.896606 null]
endobj
355 0 obj[341 0 R/XYZ 0 311.186249 null]
endobj
356 0 obj[341 0 R/XYZ 0 285.475891 null]
endobj
357 0 obj[341 0 R/XYZ 0 259.765564 null]
endobj
358 0 obj[341 0 R/XYZ 0 234.055222 null]
endobj
359 0 obj[341 0 R/XYZ 0 208.344894 null]
endobj
360 0 obj[341 0 R/XYZ 0 182.634552 null]
endobj
361 0 obj[341 0 R/XYZ 0 156.92421 null]
endobj
362 0 obj[341 0 R/XYZ 0 131.213867 null]
endobj
363 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 44>>
endobj
366 0 obj[10 0 R]
endobj
367 0 obj[363 0 R/XYZ 0 527.241455 null]
endobj
368 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 45>>
endobj
369 0 obj<>
endobj
372 0 obj[10 0 R]
endobj
373 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 46>>
endobj
374 0 obj<>
endobj
377 0 obj[10 0 R]
endobj
378 0 obj[373 0 R/XYZ 0 105.503525 null]
endobj
379 0 obj[373 0 R/XYZ 0 105.503525 null]
endobj
380 0 obj[373 0 R/XYZ 0 105.503525 null]
endobj
381 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 47>>
endobj
384 0 obj[381 0 R/XYZ 0 578.66217 null]
endobj
385 0 obj[381 0 R/XYZ 0 578.66217 null]
endobj
386 0 obj<>
endobj
387 0 obj<>
endobj
388 0 obj[381 0 R/XYZ 0 578.66217 null]
endobj
389 0 obj[10 0 R]
endobj
390 0 obj[381 0 R/XYZ 0 475.820801 null]
endobj
391 0 obj[381 0 R/XYZ 0 475.820801 null]
endobj
392 0 obj[381 0 R/XYZ 0 475.820801 null]
endobj
393 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 48>>
endobj
396 0 obj[10 0 R]
endobj
397 0 obj[393 0 R/XYZ 0 126.24852 null]
endobj
398 0 obj[393 0 R/XYZ 0 126.24852 null]
endobj
399 0 obj[393 0 R/XYZ 0 126.24852 null]
endobj
400 0 obj[393 0 R/XYZ 0 23.407166 null]
endobj
401 0 obj[393 0 R/XYZ 0 23.407166 null]
endobj
402 0 obj[393 0 R/XYZ 0 23.407166 null]
endobj
403 0 obj[393 0 R/XYZ 0 23.407166 null]
endobj
404 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 49>>
endobj
407 0 obj[10 0 R]
endobj
408 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 50>>
endobj
409 0 obj<>
endobj
412 0 obj[10 0 R]
endobj
413 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 51>>
endobj
414 0 obj<>
endobj
415 0 obj<>
endobj
418 0 obj[10 0 R]
endobj
419 0 obj[413 0 R/XYZ 0 434.772614 null]
endobj
420 0 obj[413 0 R/XYZ 0 434.772614 null]
endobj
421 0 obj[413 0 R/XYZ 0 434.772614 null]
endobj
422 0 obj[413 0 R/XYZ 0 330.968384 null]
endobj
423 0 obj[413 0 R/XYZ 0 330.968384 null]
endobj
424 0 obj[413 0 R/XYZ 0 230.052734 null]
endobj
425 0 obj[413 0 R/XYZ 0 230.052734 null]
endobj
426 0 obj[413 0 R/XYZ 0 230.052734 null]
endobj
427 0 obj[413 0 R/XYZ 0 230.052734 null]
endobj
428 0 obj[413 0 R/XYZ 0 152.921722 null]
endobj
429 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 52>>
endobj
432 0 obj[10 0 R]
endobj
433 0 obj[429 0 R/XYZ 0 42.378403 null]
endobj
434 0 obj[429 0 R/XYZ 0 42.378403 null]
endobj
435 0 obj[429 0 R/XYZ 0 42.378403 null]
endobj
436 0 obj[429 0 R/XYZ 0 42.378403 null]
endobj
437 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 53>>
endobj
440 0 obj[10 0 R]
endobj
441 0 obj[437 0 R/XYZ 0 116.6595 null]
endobj
442 0 obj[437 0 R/XYZ 0 116.6595 null]
endobj
443 0 obj[437 0 R/XYZ 0 116.6595 null]
endobj
444 0 obj[437 0 R/XYZ 0 116.6595 null]
endobj
445 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 54>>
endobj
448 0 obj[10 0 R]
endobj
449 0 obj[445 0 R/XYZ 0 36.678558 null]
endobj
450 0 obj[445 0 R/XYZ 0 36.678558 null]
endobj
451 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 55>>
endobj
452 0 obj<>
endobj
455 0 obj[10 0 R]
endobj
456 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 56>>
endobj
459 0 obj[10 0 R]
endobj
460 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 57>>
endobj
463 0 obj[10 0 R]
endobj
464 0 obj[460 0 R/XYZ 0 115.314362 null]
endobj
465 0 obj[460 0 R/XYZ 0 115.314362 null]
endobj
466 0 obj[460 0 R/XYZ 0 115.314362 null]
endobj
467 0 obj[460 0 R/XYZ 0 115.314362 null]
endobj
468 0 obj[460 0 R/XYZ 0 63.893677 null]
endobj
469 0 obj[460 0 R/XYZ 0 63.893677 null]
endobj
470 0 obj[460 0 R/XYZ 0 63.893677 null]
endobj
471 0 obj[460 0 R/XYZ 0 63.893677 null]
endobj
472 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 58>>
endobj
475 0 obj[10 0 R]
endobj
476 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 59>>
endobj
479 0 obj[10 0 R]
endobj
480 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 60>>
endobj
481 0 obj<>
endobj
484 0 obj[10 0 R]
endobj
485 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 61>>
endobj
488 0 obj[10 0 R]
endobj
489 0 obj[485 0 R/XYZ 0 127.752747 null]
endobj
490 0 obj[485 0 R/XYZ 0 127.752747 null]
endobj
491 0 obj[485 0 R/XYZ 0 127.752747 null]
endobj
492 0 obj[485 0 R/XYZ 0 127.752747 null]
endobj
493 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 62>>
endobj
496 0 obj[10 0 R]
endobj
497 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 63>>
endobj
500 0 obj[10 0 R]
endobj
501 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 64>>
endobj
504 0 obj[10 0 R]
endobj
505 0 obj<>
endobj
506 0 obj<>
endobj
507 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 65>>
endobj
508 0 obj<>
endobj
511 0 obj[10 0 R]
endobj
512 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 66>>
endobj
515 0 obj[10 0 R]
endobj
516 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 67>>
endobj
519 0 obj[10 0 R]
endobj
520 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 68>>
endobj
523 0 obj[10 0 R]
endobj
524 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 69>>
endobj
527 0 obj[10 0 R]
endobj
528 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 70>>
endobj
529 0 obj<>
endobj
532 0 obj[10 0 R]
endobj
533 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 71>>
endobj
536 0 obj[10 0 R]
endobj
537 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 72>>
endobj
540 0 obj[10 0 R]
endobj
541 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 73>>
endobj
542 0 obj<>
endobj
545 0 obj[10 0 R]
endobj
546 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 74>>
endobj
549 0 obj[10 0 R]
endobj
550 0 obj[546 0 R/XYZ 0 372.98645 null]
endobj
555 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 75>>
endobj
556 0 obj<>
endobj
559 0 obj[10 0 R]
endobj
563 0 obj[555 0 R/XYZ 0 143.604797 null]
endobj
578 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 76>>
endobj
579 0 obj<>
endobj
583 0 obj[10 0 R]
endobj
595 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 77>>
endobj
599 0 obj[10 0 R]
endobj
608 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 78>>
endobj
611 0 obj[10 0 R]
endobj
634 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 79>>
endobj
637 0 obj[10 0 R]
endobj
658 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 80>>
endobj
659 0 obj<>
endobj
662 0 obj[10 0 R]
endobj
668 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 81>>
endobj
672 0 obj[10 0 R]
endobj
678 0 obj[668 0 R/XYZ 0 532.756531 null]
endobj
679 0 obj[668 0 R/XYZ 0 532.756531 null]
endobj
680 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 82>>
endobj
683 0 obj[10 0 R]
endobj
684 0 obj[680 0 R/XYZ 0 379.758423 null]
endobj
685 0 obj[680 0 R/XYZ 0 379.758423 null]
endobj
686 0 obj[680 0 R/XYZ 0 379.758423 null]
endobj
687 0 obj[680 0 R/XYZ 0 379.758423 null]
endobj
688 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 83>>
endobj
689 0 obj<>
endobj
690 0 obj<>
endobj
693 0 obj[10 0 R]
endobj
694 0 obj[688 0 R/XYZ 0 464.438904 null]
endobj
695 0 obj[688 0 R/XYZ 0 464.438904 null]
endobj
696 0 obj[688 0 R/XYZ 0 464.438904 null]
endobj
697 0 obj[688 0 R/XYZ 0 464.438904 null]
endobj
698 0 obj[688 0 R/XYZ 0 438.728546 null]
endobj
699 0 obj[688 0 R/XYZ 0 438.728546 null]
endobj
700 0 obj[688 0 R/XYZ 0 438.728546 null]
endobj
702 0 obj[688 0 R/XYZ 0 430.502502 null]
endobj
703 0 obj[688 0 R/XYZ 0 413.018188 null]
endobj
704 0 obj[688 0 R/XYZ 0 413.018188 null]
endobj
705 0 obj[688 0 R/XYZ 0 413.018188 null]
endobj
707 0 obj[688 0 R/XYZ 0 404.792145 null]
endobj
708 0 obj[688 0 R/XYZ 0 387.307861 null]
endobj
709 0 obj[688 0 R/XYZ 0 387.307861 null]
endobj
710 0 obj[688 0 R/XYZ 0 387.307861 null]
endobj
712 0 obj[688 0 R/XYZ 0 379.081787 null]
endobj
713 0 obj[688 0 R/XYZ 0 361.597534 null]
endobj
714 0 obj[688 0 R/XYZ 0 361.597534 null]
endobj
715 0 obj[688 0 R/XYZ 0 361.597534 null]
endobj
717 0 obj[688 0 R/XYZ 0 353.37146 null]
endobj
718 0 obj[688 0 R/XYZ 0 310.176849 null]
endobj
719 0 obj[688 0 R/XYZ 0 310.176849 null]
endobj
720 0 obj[688 0 R/XYZ 0 310.176849 null]
endobj
721 0 obj[688 0 R/XYZ 0 310.176849 null]
endobj
722 0 obj[688 0 R/XYZ 0 284.466492 null]
endobj
723 0 obj[688 0 R/XYZ 0 284.466492 null]
endobj
724 0 obj[688 0 R/XYZ 0 284.466492 null]
endobj
726 0 obj[688 0 R/XYZ 0 276.240448 null]
endobj
727 0 obj[688 0 R/XYZ 0 233.045822 null]
endobj
728 0 obj[688 0 R/XYZ 0 233.045822 null]
endobj
729 0 obj[688 0 R/XYZ 0 233.045822 null]
endobj
730 0 obj[688 0 R/XYZ 0 233.045822 null]
endobj
731 0 obj[688 0 R/XYZ 0 207.33548 null]
endobj
732 0 obj[688 0 R/XYZ 0 207.33548 null]
endobj
733 0 obj[688 0 R/XYZ 0 207.33548 null]
endobj
735 0 obj[688 0 R/XYZ 0 199.109421 null]
endobj
736 0 obj[688 0 R/XYZ 0 170.070969 null]
endobj
737 0 obj[688 0 R/XYZ 0 170.070969 null]
endobj
738 0 obj[688 0 R/XYZ 0 170.070969 null]
endobj
740 0 obj[688 0 R/XYZ 0 161.84491 null]
endobj
741 0 obj[688 0 R/XYZ 0 132.806442 null]
endobj
742 0 obj[688 0 R/XYZ 0 132.806442 null]
endobj
743 0 obj[688 0 R/XYZ 0 132.806442 null]
endobj
745 0 obj[688 0 R/XYZ 0 124.580383 null]
endobj
746 0 obj[688 0 R/XYZ 0 95.541916 null]
endobj
747 0 obj[688 0 R/XYZ 0 95.541916 null]
endobj
748 0 obj[688 0 R/XYZ 0 95.541916 null]
endobj
750 0 obj[688 0 R/XYZ 0 87.315857 null]
endobj
751 0 obj[688 0 R/XYZ 0 32.567062 null]
endobj
752 0 obj[688 0 R/XYZ 0 32.567062 null]
endobj
753 0 obj[688 0 R/XYZ 0 32.567062 null]
endobj
754 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 84>>
endobj
757 0 obj[10 0 R]
endobj
758 0 obj[754 0 R/XYZ 0 557.146362 null]
endobj
759 0 obj[754 0 R/XYZ 0 557.146362 null]
endobj
760 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 85>>
endobj
761 0 obj<>
endobj
764 0 obj[760 0 R/XYZ 0 584.277039 null]
endobj
765 0 obj[760 0 R/XYZ 0 584.277039 null]
endobj
766 0 obj[10 0 R]
endobj
767 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 86>>
endobj
770 0 obj[10 0 R]
endobj
789 0 obj 1039
endobj
790 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
791 0 obj 3589
endobj
792 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
18.45459 0 0 18.45459 397.4646 565.34857 Tm
( )Tj
/TT1 1 Tf
-0.03751 -1.91409 Td
( )Tj
ET
1 0 0 RG
1 w 10 M 0 j 0 J []0 d
327.08185 442.48792 145.28693 67.0555 re
S
BT
/TT2 1 Tf
10.43086 0 0 10.43086 26.8222 419.68753 Tm
(TABLE OF CONTENTS )Tj
/TT3 1 Tf
9.62848 0 0 9.62848 26.8222 392.69962 Tm
(I. FROM THE DIRECTOR )Tj
ET
0 0 1 RG
0.52571 w
140.76567 391.12247 m
145.98108 391.12247 l
S
0 0 1 rg
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 140.76567 392.69962 Tm
(*)Tj
0 0 0 rg
/TT3 1 Tf
9.62848 0 0 9.62848 26.8222 364.53629 Tm
(II. MISSION STATEMENT )Tj
ET
141.85368 362.95914 m
147.06911 362.95914 l
S
0 0 1 rg
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 141.85368 364.53629 Tm
(*)Tj
0 0 0 rg
/TT3 1 Tf
9.62848 0 0 9.62848 26.8222 336.37299 Tm
(III. MEMBERSHIP AND VISITORS )Tj
ET
178.23972 334.79584 m
183.45514 334.79584 l
S
0 0 1 rg
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 178.23972 336.37299 Tm
(*)Tj
0 0 0 rg
/TT3 1 Tf
9.62848 0 0 9.62848 26.8222 308.20966 Tm
(IV. SEMINARS )Tj
ET
94.24083 306.63254 m
99.45627 306.63254 l
S
0 0 1 rg
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 94.24083 308.20966 Tm
(*)Tj
0 0 0 rg
/TT3 1 Tf
9.62848 0 0 9.62848 26.8222 280.04636 Tm
(V. CAMS MEMBER PUBLICATIONS, PRESENTATIONS, AND REPORTS )Tj
ET
348.90457 278.46921 m
354.12 278.46921 l
S
0 0 1 rg
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 348.90457 280.04636 Tm
(*)Tj
0 0 0 rg
/TT3 1 Tf
9.62848 0 0 9.62848 26.8222 251.88306 Tm
(A. PUBLICATIONS )Tj
ET
111.89948 250.30591 m
117.1149 250.30591 l
S
0 0 1 rg
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 111.89948 251.88306 Tm
(*)Tj
0 0 0 rg
/TT3 1 Tf
9.62848 0 0 9.62848 26.8222 223.71974 Tm
(B. PRESENTATIONS )Tj
ET
122.59671 222.14258 m
127.81215 222.14258 l
S
0 0 1 rg
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 122.59671 223.71974 Tm
(*)Tj
0 0 0 rg
/TT3 1 Tf
9.62848 0 0 9.62848 26.8222 195.55643 Tm
(C. CAMS REPORTS )Tj
ET
118.84161 193.97928 m
124.05704 193.97928 l
S
0 0 1 rg
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 118.84161 195.55643 Tm
(*)Tj
0 0 0 rg
/TT3 1 Tf
9.62848 0 0 9.62848 26.8222 167.39311 Tm
(VI. CAMS MEMBER EXTERNAL ACTIVITIES AND AWARDS )Tj
ET
293.26157 165.81598 m
298.47699 165.81598 l
S
0 0 1 rg
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 293.26157 167.39311 Tm
(*)Tj
0 0 0 rg
/TT3 1 Tf
9.62848 0 0 9.62848 26.8222 139.22981 Tm
(A. FACULTY )Tj
ET
85.14192 137.65265 m
90.35735 137.65265 l
S
0 0 1 rg
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 85.14192 139.22981 Tm
(*)Tj
0 0 0 rg
/TT3 1 Tf
9.62848 0 0 9.62848 26.8222 111.0665 Tm
(B. STUDENTS )Tj
ET
93.16245 109.48935 m
98.37787 109.48935 l
S
0 0 1 rg
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 93.16245 111.0665 Tm
(*)Tj
0 0 0 rg
/TT3 1 Tf
9.62848 0 0 9.62848 26.8222 83.62186 Tm
(VII. CENTER FUNDING ACTIVITIES 29)Tj
0 -2.74487 TD
(A. EXTERNALLY FUNDED RESEARCH )Tj
ET
202.84047 55.61569 m
208.05591 55.61569 l
S
0 0 1 rg
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 202.84047 57.19284 Tm
(*)Tj
0 0 0 rg
/TT3 1 Tf
9.62848 0 0 9.62848 26.8222 29.02953 Tm
(B. PROPOSED RESEARCH )Tj
ET
152.02136 27.45239 m
157.23679 27.45239 l
S
0 0 1 rg
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 152.02136 29.02953 Tm
(*)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(2 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
793 0 obj 5433
endobj
794 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 576.86621 Tm
(C. EXTERNALLY FUNDED PROJECTS -- NOT THROUGH CAMS )Tj
ET
0 0 1 RG
0.52571 w 10 M 0 j 0 J []0 d
315.16635 575.28906 m
320.38177 575.28906 l
S
0 0 1 rg
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 315.16635 576.86621 Tm
(*)Tj
0 0 0 rg
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 548.70288 Tm
(VIII. CAMS COMMITTEE AND LABORATORY ANNUAL REPORTS )Tj
ET
320.00949 547.12573 m
325.22491 547.12573 l
S
0 0 1 rg
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 320.00949 548.70288 Tm
(*)Tj
0 0 0 rg
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 520.53961 Tm
(A. READING ROOM )Tj
ET
117.77284 518.96246 m
122.98828 518.96246 l
S
0 0 1 rg
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 117.77284 520.53961 Tm
(*)Tj
0 0 0 rg
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 492.37628 Tm
(B. CAMS COMMITTEE REPORTS )Tj
ET
178.75966 490.79913 m
183.97508 490.79913 l
S
0 0 1 rg
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 178.75966 492.37628 Tm
(*)Tj
0 0 0 rg
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 464.21298 Tm
(C. LABORATORY ANNUAL REPORTS )Tj
ET
198.56543 462.6358 m
203.78087 462.6358 l
S
0 0 1 rg
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 198.56543 464.21298 Tm
(*)Tj
0 0 0 rg
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 436.04965 Tm
(D. CAPSTONE LABORATORY )Tj
ET
163.2578 434.4725 m
168.47322 434.4725 l
S
0 0 1 rg
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 163.2578 436.04965 Tm
(*)Tj
0 0 0 rg
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 407.88635 Tm
(IX. ANNUAL RESEARCH WITHIN CAMS )Tj
ET
206.57634 406.3092 m
211.79175 406.3092 l
S
0 0 1 rg
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 206.57634 407.88635 Tm
(*)Tj
0 0 0 rg
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 379.72302 Tm
(A. SELECTED RESEARCH ACTIVITIES )Tj
ET
203.3893 378.14587 m
208.60474 378.14587 l
S
0 0 1 rg
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 203.3893 379.72302 Tm
(*)Tj
0 0 0 rg
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 351.55972 Tm
(B. SELECTED RESEARCH RESULTS )Tj
ET
195.35916 349.98257 m
200.57457 349.98257 l
S
0 0 1 rg
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 195.35916 351.55972 Tm
(*)Tj
0 0 0 rg
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 323.39642 Tm
(C. COLLABORATIVE RESEARCH )Tj
ET
178.23972 321.81927 m
183.45514 321.81927 l
S
0 0 1 rg
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 178.23972 323.39642 Tm
(*)Tj
0 0 0 rg
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 295.23309 Tm
(D. CAMS ACADEMIC YEAR RESEARCH PROGRAM FOR STUDENTS )Tj
ET
338.17844 293.65594 m
343.39386 293.65594 l
S
0 0 1 rg
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 338.17844 295.23309 Tm
(*)Tj
0 0 0 rg
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 267.06979 Tm
(E. CAMS SUMMER RESEARCH PROGRAM FOR STUDENTS )Tj
ET
300.72363 265.49265 m
305.93906 265.49265 l
S
0 0 1 rg
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 300.72363 267.06979 Tm
(*)Tj
0 0 0 rg
/TT0 1 Tf
9.62848 0 0 9.62848 56.62465 238.90648 Tm
(1998 )Tj
ET
80.7151 237.32935 m
85.93054 237.32935 l
S
0 0 1 rg
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 80.7151 238.90648 Tm
(*)Tj
0 0 0 rg
/TT0 1 Tf
9.62848 0 0 9.62848 56.62465 210.74318 Tm
(1999 )Tj
ET
80.7151 209.16603 m
85.93054 209.16603 l
S
0 0 1 rg
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 80.7151 210.74318 Tm
(*)Tj
0 0 0 rg
8.02374 0 0 8.02374 398.72232 184.64731 Tm
( )Tj
/TT1 1 Tf
9.62848 0 0 9.62848 344.09192 159.77489 Tm
(I. FROM THE DIRECTOR)Tj
/TT0 1 Tf
-32.95119 -2.69736 Td
(The core mission of CAMS is to promote and sustain research in the mathe\
matical sciences at NJIT. CAMS seeks to foster a stimula)Tj
(ting scientific environment where each )Tj
0 -1.2 TD
(member can reach their full potential. Our goals are not modest. We hope\
to nurture significant scientific developments and to p)Tj
(articipate in the training of a new generation of )Tj
T*
(scientific leaders. Of course, such high aspirations require consistent,\
careful and patient efforts at developing all aspects o)Tj
(f the research environment. )Tj
0 -2.67024 TD
(Opportunities abound for CAMS and its members. The challenge is to susta\
in and develop our well-established and highly regarded )Tj
(research infrastructure as we )Tj
0 -1.2 TD
(simultaneously advance in new directions. In the past year our infrastru\
cture has been strengthened. The CAMS/Math Seminar Serie)Tj
(s has continued to garner much deserved )Tj
T*
(recognition for its first-rate science and wide-range of speakers. The C\
AMS Computational Laboratory was upgraded with its first)Tj
( multiprocessor compute server as well as )Tj
T*
(substantial improvements networking, printing, backup and support softwa\
re. Our efforts to encourage research funding have met w)Tj
(ith substantial success including a number )Tj
T*
(of first-time grant recipients; these results strengthen our confidence \
that we are laying a solid foundation for the future. Th)Tj
(e CAMS Summer Research Program continues to )Tj
T*
(provide a rich scientific environment for graduate students to perform r\
esearch in collaboration with CAMS members. A major reno)Tj
(vation of the CAMS Reading Room has )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(3 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
795 0 obj 3542
endobj
796 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 585.7597 Tm
(provided us with a facility for social and research interactions that fu\
lly reflects the seriousness and dedication of our effor)Tj
(ts to reach our ambitions. This short list is )Tj
0 -1.2 TD
(representative of the general progress we have made in research infrastr\
ucture.)Tj
0 -2.67024 TD
(Challenges remain. The continuing inadequacies of the office and computi\
ng resources for graduate student researchers must be ov)Tj
(ercome. The rapid advance and )Tj
0 -1.2 TD
(increasing importance of biomathematics in CAMS provoke us to update our\
understanding of the unity of the mathematical sciences)Tj
(. Our just-begun exploration of financial )Tj
T*
(mathematics will further challenge this understanding. The recent hardwa\
re and software upgrades of our laboratories must be mol)Tj
(ded into a coherent computing environment )Tj
T*
(supporting research. The obvious talents and dedicated efforts of the CA\
MS membership give us an overwhelming confidence that th)Tj
(ese challenges will be met. )Tj
0 -2.67024 TD
(The accomplishments of CAMS are built on the efforts and support of many\
individuals. CAMS is grateful to President Saul Fenster)Tj
( for the vision that has created an )Tj
0 -1.2 TD
(environment where the aspirations of CAMS are espoused and appreciated. \
Provost William Van Buskirk and Dean John Poate have enc)Tj
(ouraged CAMS through their strong )Tj
T*
(support of scientific research. CAMS is very appreciative of the deep co\
mmitment of Gregory A. Kriegsmann, Foundation Chair in A)Tj
(pplied Mathematics, whose generous )Tj
T*
(supply of resources, advice, and energy have been instrumental in our on\
going success.)Tj
0 -2.67024 TD
( )Tj
T*
( )Tj
T*
( )Tj
/T1_0 1 Tf
0 -2.67329 TD
( )Tj
0 -2.67024 TD
( )Tj
T*
( )Tj
/TT1 1 Tf
0 -2.64008 TD
(Daljit S. Ahluwalia, Director Jonathan Luke, Associate Directo\
r)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 247.0584 Tm
( )Tj
/T1_1 1 Tf
0 -2.55714 TD
( )Tj
T*
( )Tj
/T1_2 1 Tf
8.02374 0 0 8.02374 398.72232 169.10628 Tm
( )Tj
/TT1 1 Tf
9.62848 0 0 9.62848 343.28314 144.23386 Tm
(II. MISSION STATEMENT)Tj
/T1_1 1 Tf
10.43086 0 0 10.43086 26.8222 117.54384 Tm
( )Tj
T*
( )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 64.91614 Tm
(The Center for Applied Mathematics and Statistics \(CAMS\) was establish\
ed in 1986 to promote research in the mathematical science)Tj
(s at the New Jersey Institute of )Tj
0 -1.2 TD
(Technology. Members of the Department of Mathematical Sciences naturally\
form the core of CAMS membership, but the importance of)Tj
( mathematics for science and )Tj
T*
(technology has made CAMS an interdisciplinary organization. The formal s\
tructure of CAMS consists of the Director, Associate Dir)Tj
(ector, and the committees on research, )Tj
T*
(seminars, computation, publications, and statistical consulting. But the\
essential nature of the organization is that of a volun)Tj
(tary association of individual researchers of many )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(4 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
797 0 obj 3050
endobj
798 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 585.7597 Tm
(disciplines joined in a collegial collaboration to enhance mathematical \
work at NJIT.)Tj
0 -2.67024 TD
(CAMS undertakes a wide range of activities in pursuing its mission. CAMS\
brings researchers from academia, industry, and governm)Tj
(ent to NJIT and other institutions by )Tj
0 -1.2 TD
(organizing interdisciplinary workshops and by bringing together research\
ers whose strengths are complementary and whose goals ar)Tj
(e common. In some cases, CAMS )Tj
T*
(secures the appointment of Research Professors to formalize this relatio\
nship so that grants can be jointly pursued. CAMS provid)Tj
(es its members with laboratory support by )Tj
T*
(maintaining the CAMS/Math Computational Laboratory, the NSF Capstone Lab\
oratory, and the Statistical Consulting Laboratory. CAMS)Tj
( activities also include support for the )Tj
T*
(submission of research proposals, which is done through dissemination of\
information, organization of group projects, collegial )Tj
(advice and assistance with application )Tj
T*
(documents. Senior members of CAMS commit a significant amount of time an\
d effort in providing guidance and advice to young resea)Tj
(rchers in their efforts to obtain funding. )Tj
T*
(Graduate student research is encouraged through the CAMS Summer Research\
Program and support for students to attend conferences.)Tj
( )Tj
0 -2.67024 TD
(In the future, CAMS hopes and expects to maintain its high standards of \
professionalism and scholarship and plans to extend its )Tj
(activities to include fostering more research )Tj
0 -1.2 TD
(by undergraduate students and developing long-term relationships with in\
dustry.)Tj
/T1_1 1 Tf
38.60419 -2.67331 Td
( )Tj
0 -2.67024 TD
( )Tj
0 -2.67023 TD
( )Tj
10.43086 0 0 10.43086 26.8222 349.89975 Tm
( )Tj
/T1_2 1 Tf
8.02374 0 0 8.02374 398.72232 325.29401 Tm
( )Tj
/TT1 1 Tf
9.62848 0 0 9.62848 324.82532 300.4216 Tm
(III. MEMBERSHIP AND VISITORS)Tj
/T1_1 1 Tf
-30.95018 -2.70041 Td
(Department of Mathematical Sciences)Tj
/T1_0 1 Tf
0 -2.67024 TD
(Ahluwalia, Daljit S. )Tj
T*
(Andrushkiw, Roman Lott-Crumpler, Dawn)Tj
T*
(Bechtold, John Luke, Jonathan )Tj
T*
(Bhattacharjee, Manish Michalopoulou, Zoi-Heleni )Tj
T*
(Blackmore, Denis Milojevic, Petronije)Tj
T*
(Booth, Victoria Nadim, Farzan)Tj
T*
(Booty, Michael Papageorgiou, Demetrios )Tj
T*
(Bose, Amit Perez, Manuel)Tj
0 -2.67023 TD
(Bukiet, Bruce Petropoulos, Peter )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(5 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
799 0 obj 1483
endobj
800 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
9.62848 0 0 9.62848 26.8222 585.73022 Tm
(Crato, Nuno Porter, Michael)Tj
0 -2.67024 TD
(Dhar, Sunil Ray, Bonnie )Tj
T*
(Dios, Rose Siegel, Michael)Tj
T*
(Goldberg, Vladislav Stickler, David )Tj
T*
(Hile, Cheryl Tavantzis, John)Tj
T*
(Kriegsmann, Gregory Tilley, Burt )Tj
T*
(Lacker, Michael )Tj
/T1_1 1 Tf
0 -4.67023 TD
(Visiting Members)Tj
/T1_0 1 Tf
0 -2.67024 TD
(Chaudhry, Hans Gilchrist, John)Tj
T*
(Jorge, Maria Carmen Luo, Laihan)Tj
T*
(Yefet, Amir)Tj
/T1_1 1 Tf
T*
( )Tj
T*
(Department of Mechanical Engineering)Tj
/T1_0 1 Tf
T*
(Aubry, Nadine Rosato, Anthony )Tj
T*
(Dave, Rajesh)Tj
T*
( )Tj
/T1_1 1 Tf
T*
(Department of Civil and Environmental Engineering)Tj
/T1_0 1 Tf
T*
(Meegoda, Jay N.)Tj
/T1_1 1 Tf
0 -2.67023 TD
( )Tj
0 -2.67024 TD
(Department of Computer and Information Science)Tj
/T1_0 1 Tf
T*
(Recce, Michael)Tj
/T1_1 1 Tf
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(6 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
801 0 obj 2407
endobj
802 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_1 1 Tf
9.62848 0 0 9.62848 26.8222 576.8457 Tm
(CAMS Research Professors)Tj
/T1_0 1 Tf
0 -2.67024 TD
(Erneux, Thomas Findley, Thomas)Tj
T*
( )Tj
/T1_1 1 Tf
T*
(Long and Short-Term Visitors)Tj
/T1_0 1 Tf
T*
(Abrahams, David University of Manchester, UK)Tj
0 -2.67023 TD
(Chopra , D.V. Wichita State University, Kansas)Tj
0 -2.67024 TD
(Feher, Lambert Forschungszentrum Karlsruhe \226 ITP, Germany)Tj
T*
(Smith, Paul Dundee University, UK)Tj
/TT0 1 Tf
35.33968 -2.64008 Td
(IV. SEMINARS)Tj
/T1_0 1 Tf
-35.33968 -2.70041 Td
( )Tj
/TT0 1 Tf
10.43086 0 0 10.43086 341.45331 319.36792 Tm
(1998-99 Seminar Series)Tj
/TT1 1 Tf
9.62848 0 0 9.62848 26.8222 293.09866 Tm
( )Tj
T*
(September 4 )Tj
/TT0 1 Tf
(V. V. Goldberg)Tj
/TT1 1 Tf
(, Department of Mathematical Sciences, New Jersey Institute )Tj
0 -2.69734 TD
(of Technology. )Tj
/TT2 1 Tf
("Conformal Rigidity of Hypersurfaces")Tj
/TT1 1 Tf
0 -2.67172 TD
(September 11 )Tj
/TT0 1 Tf
(Mike Shelley)Tj
/TT1 1 Tf
(, Courant Institute of Mathematical Sciences. )Tj
/TT2 1 Tf
6.19048 -2.69588 Td
("Modelling of the Visual Cortex")Tj
/TT1 1 Tf
-6.19048 -2.67172 Td
(September 18 )Tj
/TT0 1 Tf
(Dipak K. Dey)Tj
/TT1 1 Tf
(, Department Of Statistics, University of Connecticut, Storrs.)Tj
/TT2 1 Tf
0 -2.69588 TD
("A New Skew Link Model for Dichotomous Quantal Response Model")Tj
/TT1 1 Tf
0 -2.67171 TD
(September 22 )Tj
/TT0 1 Tf
(David Abrahams)Tj
/TT1 1 Tf
(, Beyer Professor of Applied Mathematics, University of )Tj
18.57143 -2.69736 Td
(Manchester. )Tj
/TT2 1 Tf
("Matrix Weiner-Hopf Factorization with Applications in Fluids and Solid \
Mechanics")Tj
/TT1 1 Tf
-18.57143 -2.67171 Td
(September 25 )Tj
/TT0 1 Tf
(David A. Edwards)Tj
/TT1 1 Tf
(, Department Of Mathematical Sciences, University of)Tj
0 -2.69736 TD
(Delaware. )Tj
/TT2 1 Tf
("Transport Effects in Surface-Volume Biochemical Reactions")Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(7 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
803 0 obj 2749
endobj
804 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 584.93726 Tm
(October 2 )Tj
/TT1 1 Tf
(Thomas Erneux)Tj
/TT0 1 Tf
(, Free University of Brussels, Nonlinear Optics Group.)Tj
/TT2 1 Tf
0 -2.69588 TD
("Semiconductor Laser Instabilities")Tj
/TT0 1 Tf
0 -2.67172 TD
(October 9 )Tj
/TT1 1 Tf
(Jerry Ramage)Tj
/TT0 1 Tf
(, AT&T Labs. )Tj
/TT2 1 Tf
("Applied Research on Behavior at AT&T Labs")Tj
/TT0 1 Tf
0 -2.69734 TD
(October 16 )Tj
/TT1 1 Tf
(Tim Lewis)Tj
/TT0 1 Tf
(, Courant Institute of Mathematical Sciences and the )Tj
0 -2.69736 TD
(Center for Neural Science, New York University, New York, New York.)Tj
/TT2 1 Tf
0 -2.66876 TD
("Mechanisms of Cardiac Defibrillation")Tj
/TT0 1 Tf
0 -2.67172 TD
(October 23 )Tj
/TT1 1 Tf
(Moshe Matalon)Tj
/TT0 1 Tf
(, Department of Applied Math and Engineering Science,)Tj
0 -2.69734 TD
( Northwestern University.)Tj
/TT2 1 Tf
0 -2.66876 TD
("The Structure, Extinction and Stability Properties of Diffusion Flames"\
)Tj
/TT0 1 Tf
0 -2.67172 TD
(October 30 )Tj
/TT1 1 Tf
(Mark Hansen)Tj
/TT0 1 Tf
(, Bell Laboratories. )Tj
/TT2 1 Tf
0 -2.69588 TD
("Strategies for Spline Adaptation in Extended Linear Modeling")Tj
/TT0 1 Tf
0 -2.67171 TD
(November 6 )Tj
/TT1 1 Tf
(Philip Blythe)Tj
/TT0 1 Tf
(, Lehigh University. )Tj
/TT2 1 Tf
("Ignition Problems in the Newtonian Limit")Tj
/TT0 1 Tf
0 -2.69736 TD
(November 13 )Tj
/TT1 1 Tf
(Jerry Bona)Tj
/TT0 1 Tf
(, Department of Mathematics, University of Texas, Austin. )Tj
/TT2 1 Tf
0 -2.69588 TD
("Solitons, Singularities, and Sand Bars")Tj
/TT0 1 Tf
0 -2.67172 TD
(November 20 )Tj
/TT1 1 Tf
(David Rindskopf)Tj
/TT0 1 Tf
(, Educational Psychology, CUNY Graduate Center, New York.)Tj
/TT2 1 Tf
0 -2.69586 TD
("Applications of Multilevel Modeling and Empirical Bayes Estimation in S\
ocial )Tj
0 -2.67024 TD
(Research")Tj
/TT0 1 Tf
0 -2.67172 TD
(November 24 )Tj
/TT1 1 Tf
(Paul Smith)Tj
/TT0 1 Tf
(, Dundee University,United Kingdom.)Tj
/TT2 1 Tf
0 -2.69588 TD
("Matrix Wiener-Hopf Factorization with Applications in Fluid and Solid )Tj
0 -2.67024 TD
(Mechanics")Tj
T*
( )Tj
/TT0 1 Tf
0 -2.67171 TD
(January 14 )Tj
/TT1 1 Tf
(Jie Li)Tj
/TT0 1 Tf
(, Department of Mathematics, Virginia Tech, Blacksburg, VA. )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(8 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
805 0 obj 2772
endobj
806 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 585.77393 Tm
("Simulation of Two-Fluid Flows at Low Reynolds Numbers")Tj
/TT1 1 Tf
0 -2.67171 TD
(January 22 )Tj
/TT2 1 Tf
(Lou Kondic)Tj
/TT1 1 Tf
(, Department of Mathematics and Center for Nonlinear and )Tj
0 -2.69736 TD
(Complex Systems, Duke University, Durham, NC.)Tj
/TT0 1 Tf
0 -2.66876 TD
("Computations of Bubble Dynamics and Single Bubble Sonoluminescence")Tj
0 -2.67024 TD
( )Tj
/TT1 1 Tf
0 -2.67172 TD
(January 29 )Tj
/TT2 1 Tf
(Qing Nie)Tj
/TT1 1 Tf
(, Department of Mathematics, University of Chicago, Chicago, IL.)Tj
/TT0 1 Tf
0 -2.69588 TD
("Interface Dynamics in Microstructure Evolution")Tj
/TT1 1 Tf
0 -2.67171 TD
(February 3 )Tj
/TT2 1 Tf
(Steven Crunk)Tj
/TT1 1 Tf
(, Department of Statistics, Wharton School of Business, )Tj
18.57143 -2.69736 Td
(University of Pennsylvania. )Tj
/TT0 1 Tf
("Autoregressive Time Series: Bias, Variances, and Tapering")Tj
/TT1 1 Tf
-18.57143 -2.67172 Td
(February 5 )Tj
/TT2 1 Tf
(Harji I. Patel)Tj
/TT1 1 Tf
(, Pfizer Incorporation, New York, NY.)Tj
/TT0 1 Tf
0 -2.69588 TD
("Analysis of Count Data from a Clinical Trial")Tj
/TT1 1 Tf
0 -2.67171 TD
(February 10 )Tj
/TT2 1 Tf
(Curtis Tatsuoka)Tj
/TT1 1 Tf
(, Department of Statistics and Applied Probability, University )Tj
18.57143 -2.69736 Td
(of California, Santa Barbara. )Tj
/TT0 1 Tf
("Sequential Classification on Partially Ordered Sets")Tj
/TT1 1 Tf
-18.57143 -2.67171 Td
(February 12 )Tj
/TT2 1 Tf
(Judy Miller)Tj
/TT1 1 Tf
(, Department of Mathematics, Georgetown University, )Tj
0 -2.69736 TD
(Washington, DC. )Tj
/TT0 1 Tf
("Evans functions, solitary wave stability, and a coupled KdV )Tj
0 -2.67024 TD
(system")Tj
/TT1 1 Tf
0 -2.67171 TD
(February 17 )Tj
/TT2 1 Tf
(Guillermo Goldsztein)Tj
/TT1 1 Tf
(, Department of Applied Mathematics, California )Tj
0 -2.69736 TD
(Institute of Technology, Pasadena.)Tj
/TT0 1 Tf
0 -2.66876 TD
("Collapse and Rebound of a Gas Bubble: Asymptotic Expansions and )Tj
0 -2.67024 TD
(Applications")Tj
/TT1 1 Tf
0 -2.67172 TD
(February 19 )Tj
/TT2 1 Tf
(Danielle Carr)Tj
/TT1 1 Tf
(, Department of Mathematics, Bryn Mawr College, Bryn Mawr, )Tj
0 -2.69734 TD
(Pennsylvania. )Tj
/TT0 1 Tf
("Modeling Anguilliform using Immersed Boundary Method")Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(9 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
807 0 obj 3085
endobj
808 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 585.7597 Tm
(February 22 )Tj
/TT1 1 Tf
(Yunling Du)Tj
/TT0 1 Tf
(, Department of Statistics, Pennsylvania State University, )Tj
18.57143 -2.69734 Td
(University Park, PA. )Tj
/TT2 1 Tf
("A Fully Nonparametric ANCOVA Method for Censored Data")Tj
/TT0 1 Tf
-18.57143 -2.67172 Td
(February 24 )Tj
/TT1 1 Tf
(Hector Ceniceros)Tj
/TT0 1 Tf
(, Department of Applied Mathematics, California Institute )Tj
0 -2.69736 TD
(of Technology, Pasadena. )Tj
/TT2 1 Tf
("Pattern Formation in Interface Problems: Physical )Tj
0 -2.67024 TD
(Selection versus Noise Effect")Tj
/TT0 1 Tf
0 -2.67171 TD
(February 26 )Tj
/TT1 1 Tf
(Wei Lang)Tj
/TT0 1 Tf
(, Department of Biostatistics, University of Pittsburgh, PA.)Tj
/TT2 1 Tf
0 -2.69588 TD
("Application of Copula to Repeated Measurements Data")Tj
/TT0 1 Tf
0 -2.67172 TD
(March 1)Tj
/TT2 1 Tf
( )Tj
/TT1 1 Tf
(Hojin Moon)Tj
/TT2 1 Tf
(, )Tj
/TT0 1 Tf
(Department of Applied Mathematics and Statistics, State )Tj
0 -2.69734 TD
(University of NY at Stony Brook. )Tj
/TT2 1 Tf
("Testing of Time to Onset of Occult Tumors by )Tj
0 -2.67024 TD
(Attributing Tumor Lethality in the Absence of Cause-of-Death Information\
")Tj
/TT0 1 Tf
0 -2.67172 TD
(March 3 )Tj
/TT1 1 Tf
(Tingchuan Wang)Tj
/TT0 1 Tf
(, Department of Statistics, Rutgers University, New )Tj
0 -2.69734 TD
(Brunswick, NJ. )Tj
/TT2 1 Tf
("Dynamic Graphical Methodology for Multivariate Response )Tj
0 -2.67024 TD
(Surface")Tj
/TT0 1 Tf
0 -2.67172 TD
(March 5 )Tj
/TT1 1 Tf
(Cyrill Muratov)Tj
/TT0 1 Tf
(, Courant Institute of Mathematical Sciences, New York )Tj
0 -2.69734 TD
(University. )Tj
/TT2 1 Tf
("One-Dimensional Spike Autosolitons in a Reaction-Diffusion Model")Tj
/TT0 1 Tf
0 -2.67172 TD
(March 12 )Tj
/TT1 1 Tf
(Nancy Kopell)Tj
/TT0 1 Tf
(, Department of Mathematics, Boston University, )Tj
0 -2.69736 TD
(Massachusetts. )Tj
/TT2 1 Tf
("Dynamical Systems of the Nervous System")Tj
/TT0 1 Tf
0 -2.67171 TD
(March 24 )Tj
/TT1 1 Tf
(David Halpern)Tj
/TT2 1 Tf
(, )Tj
/TT0 1 Tf
(Department of Mathematics, University of Alabama, )Tj
0 -2.69736 TD
(Tuscaloosa. )Tj
/TT2 1 Tf
("Oscillatory Shear Stress Induced Stabilization of Thin Film Instabilite\
s)Tj
/TT0 1 Tf
(")Tj
0 -2.67171 TD
(March 26 )Tj
/TT1 1 Tf
(Jim Yorke)Tj
/TT0 1 Tf
(, Department of Mathematics and the Institute of Physical Sciences )Tj
0 -2.69736 TD
(and Technology, University of Maryland )Tj
/TT1 1 Tf
(\(Joint Seminar with Mathematics)Tj
0 -2.69588 TD
(Department, Rutgers-Newark\). )Tj
/TT2 1 Tf
("How Do We Find Out What a Dynamical )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(10 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
809 0 obj 2801
endobj
810 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 585.77393 Tm
(System is Doing?" )Tj
/TT1 1 Tf
0 -2.67171 TD
(April 9 )Tj
/TT2 1 Tf
(Jan Achenbach)Tj
/TT1 1 Tf
(, Center for Quality Engineering and Failure Prevention, )Tj
0 -2.69736 TD
(Northwestern University, Evanston, Illinois. )Tj
/TT0 1 Tf
("Integration of modeling and acoustic microscopy measurement for multipl\
e layered coatings")Tj
/TT1 1 Tf
0 -2.67172 TD
(April 16 )Tj
/TT2 1 Tf
(S.I. Hariharan)Tj
/TT1 1 Tf
(, Department of Mathematics, University of Akron, Ohio.)Tj
/TT0 1 Tf
0 -2.69588 TD
("Solidification: Sharp-Interface Models and Phase-Field Methods")Tj
/TT1 1 Tf
0 -2.67171 TD
(April 21 )Tj
/TT2 1 Tf
(Charles R. Doering)Tj
/TT1 1 Tf
(, Department of Mathematics, University of Michigan, Ann )Tj
0 -2.69736 TD
(Arbor. )Tj
/TT0 1 Tf
("Laminar and Turbulent Energy Dissipation in a Shear Boundary Layer with\
Suction")Tj
/TT1 1 Tf
0 -2.67171 TD
(April 21)Tj
/TT2 1 Tf
( Howard Brenner, )Tj
/TT1 1 Tf
(William Henry Dow Professor of Chemical Engineering,)Tj
0 -2.69736 TD
(MIT, Cambridge, MA )Tj
/TT2 1 Tf
(\(Joint Seminar with Mechanical Engineering Dept.\) )Tj
/TT0 1 Tf
0 -2.69588 TD
("Enhanced Heat- and Mass-Transport Rates Induced by Laminar Chaos in )Tj
0 -2.67024 TD
(Creeping Flow Systems")Tj
/TT1 1 Tf
0 -2.67171 TD
(April 28 )Tj
/TT2 1 Tf
(Peter Simpkins)Tj
/TT1 1 Tf
(, Bell Laboratories, Lucent Technologies, Murray Hill, NJ)Tj
/TT2 1 Tf
0 -2.67024 TD
(\(Joint Seminar with Chemical Engineering, Chemistry, and )Tj
0 -2.69588 TD
(Environmental Sciences Department\), )Tj
/TT0 1 Tf
("Emulsions, Coating and Tip )Tj
T*
(Streaming")Tj
/TT1 1 Tf
0 -2.67172 TD
(April 30 )Tj
/TT2 1 Tf
(Bill Morokoff)Tj
/TT1 1 Tf
(, Goldman Sachs, New York, New York. )Tj
/TT2 1 Tf
0 -2.67024 TD
(\(Joint seminar with Stevens Institute, Department of Mathematics\))Tj
/TT0 1 Tf
0 -2.69588 TD
("Applications of Brownian Motion to Option Pricing and Risk" )Tj
/TT1 1 Tf
0 -2.67171 TD
(May 5 )Tj
/TT2 1 Tf
(Roger Traub, )Tj
/TT1 1 Tf
(Professor of Mathematical Neuroscience, Department of )Tj
0 -2.69736 TD
(Neurophysiology, The University of Birmingham, Birmingham, England.)Tj
/TT0 1 Tf
0 -2.66876 TD
("Non-synaptic mechanisms of high-frequency \(>100 Hz\) oscillations in t\
he)Tj
0 -2.67024 TD
(hippocampus")Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(11 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
811 0 obj 2602
endobj
812 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 585.7597 Tm
( )Tj
/T1_1 1 Tf
8.02374 0 0 8.02374 398.72232 561.39813 Tm
( )Tj
/TT1 1 Tf
9.62848 0 0 9.62848 238.16899 536.52576 Tm
(V. CAMS MEMBER PUBLICATIONS, PRESENTATIONS, AND REPORTS)Tj
-21.95016 -2.67024 Td
( )Tj
0 -2.67024 TD
(A. PUBLICATIONS)Tj
T*
( )Tj
T*
(JOURNAL PUBLICATIONS)Tj
T*
( )Tj
0 -2.67023 TD
(Daljit S. Ahluwalia)Tj
/TT2 1 Tf
0 -2.69736 TD
(Advection-Diffusion Around A Curved Obstacle, )Tj
/TT0 1 Tf
(\(with Joseph B.)Tj
/TT2 1 Tf
( )Tj
/TT0 1 Tf
(Keller and Charles Knessl\), Journal of Mathematical Physics, Vol. 39, N\
o. 7, pp. 3694-3707, July 1998.)Tj
0 -2.67172 TD
( )Tj
/TT1 1 Tf
0 -2.64313 TD
(Nadine Aubry)Tj
ET
0 0 0 RG
0.46217 w 10 M 0 j 0 J []0 d
26.8222 277.76062 m
282.08289 277.76062 l
S
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 279.14709 Tm
(Simulation and identification of organized structures in flows)Tj
(, Fluid Mechanics and its applications, Vol. 52, Kluwer Academic Publish\
ers, Dordrecht, The Netherlands \(1999\) )Tj
0 -1.2 TD
(\(ed. with J. N. Sorensen and E. J. Hopfinger\).)Tj
0 -2.67024 TD
( )Tj
ET
343.0697 214.78575 m
605.82135 214.78575 l
S
BT
/TT2 1 Tf
9.62848 0 0 9.62848 26.8222 216.17226 Tm
(Space-time structure of the flow in a cylindrical cavity with a rotating\
lid)Tj
/TT0 1 Tf
(, in Simulation and Identification of Organized Structures in Flows \(wi\
th E. Christensen and J. N. )Tj
0 -1.20148 TD
(Sorensen\), Kluwer Academic Publishers, Dordrecht, The Netherlands \(199\
9\). )Tj
/TT2 1 Tf
0 -2.67024 TD
(Bifurcations in a planar propagating flame as the size of the domain inc\
reases)Tj
/TT0 1 Tf
(, \(with M. Rahibe and G. I. Sivashinsky\), Applied Numerical Mathematic\
s Vol. 31, No. 1, pp. 103-)Tj
0 -1.20148 TD
(115, 1999.)Tj
0 -2.67024 TD
( )Tj
/TT1 1 Tf
0 -2.64313 TD
(John Bechtold)Tj
/TT2 1 Tf
0 -2.69736 TD
(Weakly Stretched Premixed Flames in Oscillating Flows)Tj
/TT0 1 Tf
(, \(with Z. Huang and M. Matalon\), Combust. Theory and Modeling, Vol. 2\
, pp.115-133, 1998.)Tj
0 -2.67172 TD
( )Tj
/TT1 1 Tf
0 -2.64313 TD
(Manish Bhattacharjee)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(12 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
813 0 obj 2999
endobj
814 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 585.7597 Tm
(Exponentiality within class-L and Stochastic Equivalence of Laplace Orde\
red Survival Times)Tj
/TT1 1 Tf
(, Prob. in Eng. & Info. Sci., Vol. 13, pp. 201-207, 1999.)Tj
0 -2.67171 TD
( )Tj
/TT2 1 Tf
0 -2.64314 TD
(Denis Blackmore)Tj
/TT0 1 Tf
0 -2.69734 TD
(A New Fractal Model for Anisotropic Surfaces)Tj
/TT1 1 Tf
( , \(with G. Zhou\), Int. J. Mach. Tools Manufact., Vol. 38, pp. 551-557\
, 1998.)Tj
/TT0 1 Tf
0 -2.67172 TD
(Fractal Analysis of Height Distributions of Anisotropic Rough Surfaces, \
\()Tj
/TT1 1 Tf
(with G. Zhou\), Fractals, Vol. 6, pp. 43-58, 1998.)Tj
/TT0 1 Tf
0 -2.67171 TD
(New Mathematical Models for Particle Flow Dynamics,)Tj
/TT1 1 Tf
( \(with R. Samulyak and A. Rosato\), J. Nonlin. Math. Phys., Vol. 6, pp.\
198-221, 1999.)Tj
/TT0 1 Tf
0 -2.67172 TD
(Trimming Swept Volumes)Tj
/TT1 1 Tf
(, \(with R. Samulyak and M.C. Leu\), Computer-Aided Design, Vol. 31, pp.\
215-223, 1999.)Tj
/TT0 1 Tf
0 -2.67171 TD
(Phyllotaxis as a Dynamical System: A Study in Number, Symmetry in Plants\
)Tj
/TT1 1 Tf
(, \(with J. Kappraff, and G. Adamson\), R. Jean and D. Barabe \(eds.\), \
World Scientific, Singapore, )Tj
0 -1.20148 TD
(pp. 409-458, 1998.)Tj
/TT0 1 Tf
0 -2.67024 TD
(Algebraic Integrability of Nonlinear Dynamical Systems on Manifolds)Tj
/TT1 1 Tf
(, collaborated with authors on chapter five \(with A. Prykarpatsky and I\
. Mykytiuk\), Kluwer, Dordrecht, pp. )Tj
0 -1.20148 TD
(314-402, 1998.)Tj
0 -2.67024 TD
( )Tj
/TT2 1 Tf
0 -2.64313 TD
(Michael Booty)Tj
/TT0 1 Tf
0 -2.69736 TD
(Cellulose and Polystyrene, )Tj
/TT1 1 Tf
(\(with B.I. Park, J.W. Bozzelli, M.J. Bernhard, K. Mesuere, C.A. Pettigr\
ew, J.C. Shi, and S.L. Simonich\). Environmental Science a)Tj
(nd Technology, )Tj
0 -1.20148 TD
(Vol. 33, No. 15, pp. 2550-2556, 1999.)Tj
/TT2 1 Tf
0 -2.64313 TD
( )Tj
0 -2.67024 TD
(Amit Bose)Tj
/TT0 1 Tf
0 -2.69736 TD
(Stability of Localized Structures in Non-Local Reaction-Diffusion Equati\
ons,)Tj
/TT1 1 Tf
( \(co-author Gregory Kriegsmann\), Methods and Applications of Analysis,\
Vol. 5, No. 4, 351-366, )Tj
0 -1.20148 TD
(1998.)Tj
/TT2 1 Tf
0 -2.64313 TD
( )Tj
0 -2.67024 TD
(Bruce Bukiet)Tj
/TT0 1 Tf
0 -2.69734 TD
(Optimal Patterns for Suturing Wounds)Tj
/TT1 1 Tf
(, \(with H. R. Chaudhry, A. B. Ritter, T. Findley and N. Guzelsu\),)Tj
0 -2.67172 TD
(Journal of Biomechanics, Vol. 31, pp. 653-662, 1998.)Tj
0 -2.67024 TD
( )Tj
/TT2 1 Tf
0 -2.64313 TD
(Hans Chaudhry)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(13 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
815 0 obj 3263
endobj
816 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 575.4837 Tm
(Optimal Patterns for Suturing Wounds)Tj
/TT1 1 Tf
(, \(with B.Bukiet, M.Siegel,T.Findley, A.Ritter and N.Guzelsu\),)Tj
0 -2.67172 TD
(Journal of Biomechanics, Vol. 31, pp. 653-662, 1998.)Tj
0 -2.67024 TD
(Letter to the Editor:)Tj
/TT0 1 Tf
(Theoretical Study of the Stress Dependent Remodeling on Arterial Geometr\
y)Tj
0 -2.67171 TD
(Under Hypertensive Conditions)Tj
/TT1 1 Tf
(, by Alexander Rachev, Journal of Biomechanics, Vol. 32, No. 5, pp. 551-\
551, 1999.)Tj
0 -2.67172 TD
( )Tj
/TT2 1 Tf
0 -2.64313 TD
(Sunil K. Dhar)Tj
/TT0 1 Tf
0 -2.69734 TD
(Data Analysis with Discrete Analog of Freund's Model)Tj
/TT1 1 Tf
(, Journal Applied Statistical Science, Vol. 7, pp. 169-183, 1998.)Tj
0 -2.67172 TD
( )Tj
/TT2 1 Tf
0 -2.64313 TD
(Rose Dios)Tj
/TT0 1 Tf
0 -2.69736 TD
(Contributions to the Existence of Balanced Arrays of Strength Six", )Tj
/TT1 1 Tf
(\(with D. Chopra\), Journal of Combinatorics, Information and System Sci\
ences, Vol. 23, pp. 345-350, 1998.)Tj
/TT0 1 Tf
0 -2.67171 TD
(A Low-Tech, Hands-on Approach to Teaching Sorting Algorithms to Working \
Students, )Tj
/TT1 1 Tf
(\(with J. Gellar\), Computers and Education, Vol. 31, pp. 89-103, 1998.)Tj
0 -2.67172 TD
( )Tj
/TT2 1 Tf
0 -2.64313 TD
(Vladislav V. Goldberg)Tj
/TT0 1 Tf
0 -2.69736 TD
(The Darboux Mapping of Canal Hypersurfaces,)Tj
/TT1 1 Tf
( \(with M. A. Akivis\), Beitraege zur Algebra und Geometrie, Vol. 39, No\
. 2, pp. 396-411, 1998.)Tj
/TT0 1 Tf
0 -2.67171 TD
(Lightlike Hypersurfaces in the de Sitter Space,)Tj
/TT1 1 Tf
( \(with M. A. Akivis\), Acta Applicandae Mathematicae, Vol. 53, No. 2, p\
p. 297-328, 1998.)Tj
/TT0 1 Tf
0 -2.67172 TD
(Semiintegrable Almost Grassmann Structures,)Tj
/TT1 1 Tf
( \(with M. A. Akivis\), Differential Geometry and Applications, Vol. 10,\
No. 3, pp. 257-294, 1999.)Tj
0 -2.67171 TD
(Review of the book "Differentialgeometrie" \(in German\) by V. Wuensch, \
Mathematik fuer Ingenieure und Naturwissenschaftlers, B. G)Tj
(. Teubner Verlaggesellschaft mbH, )Tj
0 -1.2 TD
(Mathematical Reviews 98g:53001, 1998.)Tj
/TT2 1 Tf
0 -2.64314 TD
(Gregory A. Kriegsmann)Tj
/TT0 1 Tf
0 -2.69734 TD
(Microwave-Induced Combustion: A One-Dimensional Model)Tj
/TT1 1 Tf
(, \(with J. K. Bechtold and M. R. Booty\), Journal of Combustion Modelin\
g and Theory, Vol. 2, No. 1, pp. 57-80, )Tj
0 -1.20148 TD
(1998.)Tj
/TT0 1 Tf
0 -2.67024 TD
(A Hybrid Numerical Method for Loaded Highly Resonant Single Mode Cavitie\
s, )Tj
/TT1 1 Tf
(\(with C. Hile\), Journal of Computational Physics, Vol. 142, pp. 506-52\
0, 1998.)Tj
/TT0 1 Tf
0 -2.67171 TD
(The Flanged Waveguide Antenna: Discrete Reciprocity and Conservation)Tj
/TT1 1 Tf
(, Wave Motion, Vol. 29, pp. 81-95, 1999.)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(14 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
817 0 obj 3605
endobj
818 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 585.7597 Tm
(Stability of Localized Structures in Non-Local Reaction Diffusion Equati\
ons)Tj
/TT1 1 Tf
(, \(with A. Bose\), Methods and Applications of Analysis, Vol. 5, No. 4,\
pp. 351-366, 1999.)Tj
0 -2.67171 TD
( )Tj
/TT2 1 Tf
0 -2.64314 TD
(Jonathan Luke)Tj
/TT0 1 Tf
0 -2.69734 TD
(A Finite Difference Method for Dispersive Linear Waves with Applications\
to Simulating Microwave Pulses in Water)Tj
/TT1 1 Tf
(, J. Comput. Physics, Vol. 148, pp. 199-226, 1999.)Tj
0 -2.67172 TD
( )Tj
/TT2 1 Tf
0 -2.64313 TD
(Laihan Luo)Tj
/TT0 1 Tf
0 -2.69736 TD
(The Generalized KdV Equation in a Quarter Plane)Tj
/TT1 1 Tf
(, \(with Jerry Bona\), in Contemporary Mathematics, Vol. 221, \(J.R. Dor\
roh, G.R. Goldstein, J.G. Goldstein and M. Tom, eds.\), )Tj
0 -1.20148 TD
(American Mathematical Society; Providence, RI, pp. 59-125, 1999.)Tj
0 -2.67024 TD
( )Tj
/TT2 1 Tf
0 -2.64314 TD
(Jay N. Meegoda)Tj
/TT0 1 Tf
0 -2.69734 TD
(Remediation of Chromium Contaminated Soils--A Bench Scale Investigation)Tj
/TT1 1 Tf
(, \(with W. Kamolpornwijit, D. A. Vaccari, A. S. Ezeldin, B. A. Noval, R\
. T. Mueller, and S. Santora\), )Tj
0 -1.20148 TD
(ASCE Practice Periodical of Hazardous, Toxic, and Radioactive Waste Mana\
gement, Vol. 3, No.3, pp. 124-131, July 1999. )Tj
/TT0 1 Tf
0 -2.67024 TD
(Stabilization/Solidification of Contaminated Soils with Asphalt Emulsion\
s)Tj
/TT1 1 Tf
(, ASCE Practice Periodical of Hazardous, Toxic, and Radioactive Waste Ma\
nagement, Vol. 3, No. 1, )Tj
0 -1.20148 TD
(pp. 46-55, January 1999. )Tj
/TT0 1 Tf
0 -2.67024 TD
(Compaction Characteristics of Contaminated Soils-Reuse as a Road Base Ma\
terial)Tj
/TT1 1 Tf
(, Recycled Materials in Geotechnical Applications, \(with Bin Chen, Sami\
ddha D. )Tj
0 -1.20148 TD
(Gunasekera and Philip Pederson\), ASCE Geotechnical Special Publication \
No. 79, \(C. Vipulanandan and David J. Elton, Eds.\), ISBN:)Tj
( 0-7844-0387-2, pp. 195-209, 1998.)Tj
/TT0 1 Tf
0 -2.67024 TD
(Construction Use of Abandoned Soils)Tj
/TT1 1 Tf
(, \(with H. Y. Shan\), Journal of Hazardous Materials, Vol. 56, pp. 133-\
145, 1998.)Tj
0 -2.67171 TD
( )Tj
/TT2 1 Tf
0 -2.64314 TD
(Petronije Milojevic)Tj
/TT0 1 Tf
0 -2.69734 TD
(Nonresonant Semilinear Equations and Applications to Boundary Value Prob\
lems in Analysis of Divergence, Control and Management o)Tj
(f Divergent Processes)Tj
/TT1 1 Tf
(, \(W.O. Bray, C.)Tj
0 -1.20148 TD
(V. Stanojevic eds.\), Applied and Numerical Harmonic Analysis, pp. 379-4\
02, Birkhauser, Boston, 1999.)Tj
/TT0 1 Tf
0 -2.67024 TD
(Existence and the Number of Solutions of Nonresonant Semilinear Equation\
s and Applications to BVP's)Tj
/TT1 1 Tf
(, Advanced Topics in Nonlinear Operator Theory, J. Math. and )Tj
0 -1.20148 TD
(Computer Modelling, pp. 33, 1999.)Tj
0 -2.67023 TD
( )Tj
/TT2 1 Tf
0 -2.64314 TD
(Farzan Nadim)Tj
/TT0 1 Tf
0 -2.69734 TD
(Frequency Control of a Slow Oscillatory Network by a Fast Rhythmic Input\
: Pyloric to Gastric Mill Interactions in the Crab Stoma)Tj
(togastric)Tj
/TT1 1 Tf
(, \(with E. Marder, Y. Manor, M. )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(15 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
819 0 obj 3333
endobj
820 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 585.7597 Tm
(Bartos, and M.P. Nusbaum\), Annals New York Acad. Sci. Vol. 860, pp. 226\
-238, 1998.)Tj
/TT1 1 Tf
0 -2.67024 TD
(Network Oscillations Generated by Balancing Graded Asymmetric Reciprocal\
Inhibition in Passive Neurons)Tj
/TT0 1 Tf
(, \(with Y. Manor, S. Epstein, J. Ritt, E. Marder, and N. Kopell\), J. )Tj
0 -1.20148 TD
(Neuroscience, Vol. 19, No. 7, pp. 2765-2779, 1999.)Tj
0 -2.67023 TD
( )Tj
/TT2 1 Tf
0 -2.64314 TD
(Demetrius Papageorgiou)Tj
/TT1 1 Tf
0 -2.69734 TD
(Study of Jet Breakup Using One-Dimensional Models of the Euler Equations\
)Tj
/TT0 1 Tf
(, \(with O. Orellana\), SIAM J. Applied Math., Vol. 59, No.1, pp. 286-31\
7, 1998.)Tj
/TT1 1 Tf
0 -2.67172 TD
(Chaos in a Class of Exact Solutions of the Navier-Stokes Equations)Tj
/TT0 1 Tf
(, \(with P. Hall\), J. Fluid Mech., Vol. 393, pp. 59-87, 1999. )Tj
/TT1 1 Tf
0 -2.67171 TD
(On the Effects of Generalized Dispersion on Dissipative Dynamical System\
s)Tj
/TT0 1 Tf
(, \(with Y.S. Smyrlis\), Appl. Math. Lett., Vol. 11, No. 6, pp. 93-99, 1\
998.)Tj
/TT1 1 Tf
0 -2.67172 TD
(Increased Mobility of a Surfactant Retarded Bubble at High Bulk Concentr\
ations, )Tj
/TT0 1 Tf
(\(with Y. Wang and C. Maldarelli\), J. Fluid Mech., vol. 390, pp. 251-27\
0, 1998.)Tj
T*
( )Tj
/TT2 1 Tf
0 -2.64313 TD
(Peter Petropoulos)Tj
/TT1 1 Tf
0 -2.69588 TD
(Plane-Wave Analysis and Comparison of Split-Field, Biaxial and Uniaxial \
PML Methods as ABCs for Pseudospectral Electromagnetic W)Tj
(ave Simulations in Curvilinear )Tj
0 -1.20148 TD
(Coordinates)Tj
/TT0 1 Tf
(, \(with B. Yang\), J. Computational Physics, Vol. 146, pp. 747-774, 199\
8.)Tj
/TT1 1 Tf
0 -2.67172 TD
(On the Termination of the Perfectly Matched Layer with Local Absorbing B\
oundary Conditions)Tj
/TT0 1 Tf
(, J. Computational Physics, Vol. 143, pp. 665-673, 1998.)Tj
/TT1 1 Tf
T*
(A Reflectionless Sponge Layer Absorbing Boundary Condition for the Solut\
ion of Maxwell's Equations with High-Order Staggered Fin)Tj
(ite Difference Schemes)Tj
/TT0 1 Tf
(, \(with L. Zhao )Tj
0 -1.20148 TD
(and A.C. Cangellaris\), J. Computational Physics, Vol. 139, pp. 184-208,\
1998.)Tj
0 -2.67024 TD
( )Tj
/TT2 1 Tf
0 -2.64313 TD
(Bonnie Ray)Tj
/TT1 1 Tf
0 -2.69736 TD
(Forecasting Exchange Rates Using TSMARS)Tj
/TT0 1 Tf
(, \(with J. De Gooijer and H. Krager\), International Journal of Money a\
nd Finance, Vol. 17, pp. 513-534, 1998.)Tj
0 -2.67171 TD
( )Tj
/TT2 1 Tf
0 -2.64314 TD
(John Tavantzis)Tj
/TT1 1 Tf
0 -2.69734 TD
(Analytical Solutions of Openings Formed by Intersection of a Cylindrical\
Shell and an Oblique Nozzle Under Internal Pressure)Tj
/TT0 1 Tf
(, \(with H. Cai, B. Sun, B. Koplick\), ASME Journal )Tj
0 -1.20148 TD
(of Pressure Vessel Technology, vol. 121, pp. 170-175, 1999.)Tj
0 -2.67024 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(16 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
821 0 obj 2811
endobj
822 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 575.74469 Tm
(Michael Siegel)Tj
/TT1 1 Tf
0 -2.69736 TD
(Optimal Patterns for Suturing Wounds)Tj
/TT2 1 Tf
(, \(with H. R. Chaudhry, B. Bukiet, T. Findley, A. B. Ritter, and N. Guz\
elsu\), Journal of Biomechanics, Vol. 31, pp. 653-662, 199)Tj
(8.)Tj
0 -2.67171 TD
(Featured Review of )Tj
/TT1 1 Tf
(Geometry of Singularities for the Steady Boussinesq Equations)Tj
/TT2 1 Tf
(, Mathematical Reviews, MR 98f:35121, 1998.)Tj
0 -2.67172 TD
( )Tj
/TT0 1 Tf
0 -2.64313 TD
(Amir Yefet)Tj
/TT1 1 Tf
0 -2.69736 TD
(Construction of Three Dimensional Solution for the Maxwell's Equations)Tj
/TT2 1 Tf
(, \(with E. Turkel\), NASA/CR-1998-208954, ICASE Interim Report No. 34, \
1998.)Tj
/TT1 1 Tf
0 -2.67171 TD
(Bounded Errors Schemes for the Wave Equation on Complex Domains, \()Tj
/TT2 1 Tf
(with S. Abarbanel and A. Ditkowski\), ICASE report No. 98-50, 1998.)Tj
0 -2.67172 TD
( )Tj
/TT0 1 Tf
0 -2.64313 TD
(PROCEEDINGS PUBLICATIONS)Tj
/TT2 1 Tf
0 -2.69736 TD
( )Tj
/TT0 1 Tf
0 -2.64313 TD
(Roman I. Andrushkiw)Tj
/TT1 1 Tf
0 -2.69734 TD
(Mathematical Background of the Computer-Aided Cytogenetic Method of Diag\
nosis of Breast Cancer)Tj
/TT2 1 Tf
(, \(with Yu. I. Petunin, D.A. Kljushin, and M. Yu. Savkina\). Proceeding\
s of )Tj
0 -1.20148 TD
(the XIII Summer School of Biometrics, pp. 203-215, 1998.)Tj
/TT0 1 Tf
0 -2.64313 TD
( )Tj
0 -2.67024 TD
(John Bechtold)Tj
/TT1 1 Tf
0 -2.69736 TD
(Effects of Stroichiometry on Stretched Premixed Flames)Tj
/TT2 1 Tf
(, \(with M. Matalon\), Proceedings of the Joint Meeting of the United St\
ates Sections of the Combustion Institute, )Tj
0 -1.20148 TD
(Washington, DC, pp. 813-816, March 1999.)Tj
0 -2.67024 TD
( )Tj
/TT0 1 Tf
0 -2.64314 TD
(Manish Bhattacharjee)Tj
/TT1 1 Tf
0 -2.69734 TD
(Dynamic Programming, Renewal Functions and Perfect vs. Minimal Repair Co\
mparisons)Tj
/TT2 1 Tf
(, Frontiers in Reliability, \(A.P. Basu, et. al., eds.\), World Scientif\
ic Press, pp. 63-70, )Tj
0 -1.20148 TD
(1998.)Tj
/TT1 1 Tf
0 -2.67024 TD
(TTT-transform Characterization of the NBRUE property and Tests of Expone\
ntiality,)Tj
/TT2 1 Tf
( \(with P.K. Sen\), Frontiers in Reliability, \(A.P. Basu, et. al., eds.\
\), World Scientific Press, )Tj
0 -1.20148 TD
(pp. 71-82, 1998.)Tj
0 -2.67024 TD
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(17 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
823 0 obj 3129
endobj
824 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 586.02069 Tm
(Denis Blackmore)Tj
/TT1 1 Tf
0 -2.69734 TD
(On the Lax Solution to a Hamilton-Jacobi Equation and Its Generalization\
s. Part 1)Tj
/TT2 1 Tf
(, \(with A. Prykarpatsky\), Proc. Int. Conf. on PDEs, Praha, pp. 234-232\
, 1998.)Tj
/TT1 1 Tf
0 -2.67172 TD
(Deformed Swept Volume Analysis of NC Machining with Cutter Deflection)Tj
/TT2 1 Tf
(, \(with M.C. Leu and B. Maiteh\), Proc. SSM'98 Conf., Auburn Hills, pp.\
105-117, 1998.)Tj
/TT1 1 Tf
T*
(Quasi-optimal Paths in Automated Assembly)Tj
/TT2 1 Tf
(, Proc. Int. Conf. On Quality Manufacturing, Stellenbosch, S. A., pp. 23\
-27, 1999.)Tj
0 -2.67171 TD
( )Tj
0 -2.67024 TD
( )Tj
T*
( )Tj
/TT0 1 Tf
0 -2.64313 TD
(Bruce Bukiet)Tj
/TT1 1 Tf
0 -2.69736 TD
(Solving Curved Detonation Riemann Problems)Tj
/TT2 1 Tf
(, appearing in Shock Compression of Condensed Matter \226 1997. Proceedi\
ngs of the American Physical Society Topical )Tj
0 -1.20148 TD
(Conference, Amherst, Massachusetts, July 27 - Aug. 1, 1997, Elsevier-Nor\
th Holland, July, 1998.)Tj
0 -2.67023 TD
( )Tj
/TT0 1 Tf
0 -2.64314 TD
(Vladislav V. Goldberg)Tj
/TT1 1 Tf
0 -2.69734 TD
(On the Theory of Almost Grassmann Structures)Tj
/TT2 1 Tf
( \(with M. A. Akivis\), Proceedings of the International Conference on D\
ifferential Geometry \(Eotvos University, Budapest, 1996\), )Tj
0 -1.20148 TD
(Kluwer Academic Publishers, pp. 1-37, 1998.)Tj
0 -2.67024 TD
( )Tj
/TT0 1 Tf
0 -2.64313 TD
(Jay N. Meegoda)Tj
/TT1 1 Tf
0 -2.69736 TD
(Ultrasound to Decontaminate Dredged Sediments)Tj
/TT2 1 Tf
(, Proceedings of the Thirtieth Mid-Atlantic Industrial and Hazardous Was\
te Conference, \(R. P. S. Suri and G. L. Christensen, )Tj
0 -1.20148 TD
(eds.\), Technomic Publishers, July 1998, Villanova, PA, pp. 163-166. )Tj
0 -2.67024 TD
( )Tj
/TT0 1 Tf
0 -2.64313 TD
(Eliza Michalopoulou)Tj
/TT1 1 Tf
0 -2.69736 TD
(Active Source Detection in a Dispersive Multiple-Reflection Environment,\
)Tj
/TT2 1 Tf
( Proceedings of the International Conference of Acoustics, Speech, and S\
ignal Processing, Phoenix, )Tj
0 -1.20148 TD
(Arizona, March 1999.)Tj
/TT1 1 Tf
0 -2.67024 TD
(An Efficient Implementation of Broadband Matched Field Processing for A \
Known Source Spectrum)Tj
/TT2 1 Tf
(,)Tj
0 -2.67171 TD
(Proceedings of the Fourth European Conference on Underwater Acoustics, R\
ome, vol. 1, pp. 45--50, September 1998.)Tj
/TT1 1 Tf
0 -2.67024 TD
(Global Optimization in Matched Field Inversion,)Tj
/TT2 1 Tf
( \(co-author:P. Gerstoft\), Proceedings of the Fourth European Conferenc\
e on Underwater Acoustics, Rome, vol. 1, pp. 27--32, )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(18 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
825 0 obj 3148
endobj
826 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 585.7597 Tm
(September 1998.)Tj
0 -2.67024 TD
( )Tj
/TT1 1 Tf
0 -2.64313 TD
(Farzan Nadim)Tj
/TT2 1 Tf
0 -2.69736 TD
(A Synapse Acting as a Switch: A Role for Synaptic Depression of Graded S\
ynapses)Tj
/TT0 1 Tf
(, \(with Y. Manor, N. Kopell, and E. Marder\), Annals of Biomedical Engi\
neering, Vol 26, )Tj
0 -1.20148 TD
(Supplement 1, 1998.)Tj
/TT2 1 Tf
0 -2.67024 TD
(A Novel Mechanism of Network Oscillation Based on Asymmetric Reciprocal \
Inhibition)Tj
/TT0 1 Tf
(, \(with S. Epstein, J. Ritt, Y. Manor, E. Marder, and N. Kopell\), Soc.\
Neuroscience )Tj
0 -1.20148 TD
(Abstracts Vol. 24, pp.1892, 1998. )Tj
/TT2 1 Tf
0 -2.67024 TD
(Dynamic Regulation of Motor Pattern Generation via Disinhibition and Neu\
romodulation)Tj
/TT0 1 Tf
(, \(with Y. Manor, M. Bartos, E. Marder, and M. Nusbaum\), Soc. Neurosci\
ence )Tj
0 -1.20148 TD
(Abstracts Vol. 24, pp.1892, 1998. )Tj
/TT2 1 Tf
0 -2.67023 TD
(The Role of Depression of a Graded Synapse in an Oscillating Network of \
Neurons)Tj
/TT0 1 Tf
(, \(with Y. Manor, N. Kopell, L.F. Abbott, and E. Marder\), Soc. Neurosc\
ience Abstracts Vol. )Tj
0 -1.20148 TD
(24, pp. 1670, 1998. )Tj
/TT1 1 Tf
0 -2.64313 TD
( )Tj
0 -2.67024 TD
(Peter Petropoulos)Tj
/TT2 1 Tf
0 -2.69736 TD
(Well-posed Perfectly Matched Layers for the Numerical Solution of Maxwel\
l's Equations in Rectangular, Cylindrical, and Spherical)Tj
( Coordinates,)Tj
/TT0 1 Tf
( Proceedings of the Fourth )Tj
0 -1.20148 TD
(SIAM International Conference on Mathematical and Numerical Aspects of W\
ave Propagation, pp. 567-569, 1998.)Tj
0 -2.67023 TD
( )Tj
0 -2.67024 TD
( )Tj
/TT1 1 Tf
0 -2.64314 TD
( )Tj
0 -2.67023 TD
( )Tj
0 -2.67024 TD
(Michael Porter)Tj
/TT2 1 Tf
0 -2.69736 TD
(Hyperthermia therapy using phase conjugation, \()Tj
/TT0 1 Tf
(with P. Roux, H.C. Song, and W. Kuperman\), J. Acoust. Soc. Am., Vol. 10\
5\(2\), Pt. 2 \(1999\).)Tj
/TT2 1 Tf
0 -2.67171 TD
(Influence de l'environnement sur la propagation acoustique par petits fo\
nds: la campagne de tomographie acoustique INTIMATE96)Tj
/TT0 1 Tf
(, \(with Y. Stephan, X. Demoulin, T. Folegot, )Tj
0 -1.20148 TD
(S. Jesus, and E. Coelho \), Numero 18, EPSHOM/CMO/OCA/NP report, Oct. 12\
, 1998.)Tj
/TT2 1 Tf
0 -2.67024 TD
(Internal tide acoustic tomography: reliability of the normal modes expan\
sion as a possible basis for solving the inverse problem)Tj
/TT0 1 Tf
( \(with O.C. Rodreguez, S. Jesus, Y. Stephan, )Tj
0 -1.20148 TD
(X. Demoulin, and E. Coelho\), Proceedings of the Fourth European Confere\
nce on Underwater Acoustics, Sept. 21-25,)Tj
0 -2.67024 TD
(Rome, Italy, 1998.)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(19 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
827 0 obj 3305
endobj
828 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 585.7597 Tm
(Single-phone source tracking in a variable environment)Tj
/TT1 1 Tf
(, \(with)Tj
/TT0 1 Tf
( )Tj
/TT1 1 Tf
(S.M. Jesus, Y. Stephan, E. Coelho, X. Demoulin, \(invited\), Proceedings\
of the Fourth European Conference on )Tj
0 -1.20148 TD
(Underwater Acoustics, Sept. 21-25, Rome, Italy, 1998.)Tj
/TT0 1 Tf
0 -2.67024 TD
(Broadband source localization with a single hydrophone,)Tj
/TT1 1 Tf
( \(with S.M. Jesus, Y. Stephan, E. Coelho, X. Demoulin\), Proceedings of\
Oceans '98, Sept. 28- Oct. 1, Nice, France )Tj
0 -1.20148 TD
(1998.)Tj
/TT0 1 Tf
0 -2.67024 TD
(Application of phase conjugation to hyperthermia therapy, \()Tj
/TT1 1 Tf
(with)Tj
/TT0 1 Tf
( )Tj
/TT1 1 Tf
(Philippe Roux, Hee Chun Song, and W.A. Kuperman, to appear. Proceedings \
of 24th International Symposium )Tj
0 -1.20148 TD
(on Acoustical Imaging, Ed. Hua Lee, Sept. 23-26, Univ. of California at \
Santa Barbara, Plenum Press, 1998.)Tj
/TT0 1 Tf
0 -2.67024 TD
(Hyperthermia therapy using acoustic phase conjugation, \()Tj
/TT1 1 Tf
(with Philippe Roux, Hee Chun Song, and W.A. Kuperman\), to appear, Proce\
edings of the First International )Tj
0 -1.20148 TD
(Symposium on Physics in Signal and Image Processing, January 18-19, Pari\
s, France, 1999.)Tj
/TT0 1 Tf
0 -2.67024 TD
(Using the echo pattern to range a sound source)Tj
/TT1 1 Tf
(, \(with S.M. Jesus, Y. Stephan, E. Coelho, X. Demoulin\), to appear, Pr\
oceedings of the First International Symposium on )Tj
0 -1.20148 TD
(Physics in Signal and Image Processing, January 18-19, Paris, France, 19\
99.)Tj
/TT0 1 Tf
0 -2.67024 TD
(Tumor treatment by time-reversal acoustics, )Tj
/TT1 1 Tf
(\(with P. Roux, H. Song, and W. Kuperman\), \(invited\), International C\
onference on Acoustics, Speech, and Signal Processing )Tj
0 -1.20148 TD
(\(ICASSP\) Proceedings, 1999.)Tj
/TT0 1 Tf
0 -2.67024 TD
(Nonlinear soliton interaction with acoustic signals: Focusing effects, )Tj
/TT1 1 Tf
(\(with O. Rodriguez, S. Jesus, Y. Stephan, X. Demoulin, and E. Coelho\),\
Proceedings of the Third )Tj
0 -1.20148 TD
(International Conference on Theoretical and Computational Acoustics, Tri\
este, Italy, 1999.)Tj
0 -2.67024 TD
( )Tj
/TT2 1 Tf
0 -2.64313 TD
(Bonnie Ray:)Tj
/TT0 1 Tf
0 -2.69736 TD
(Testing for nonlinearity in a vector time series, )Tj
/TT1 1 Tf
(\(with J. Harvil\), Proceedings of the Statistical Computing Section, 19\
98 Joint Statistical Meetings.)Tj
/TT2 1 Tf
0 -2.64461 TD
( )Tj
0 -2.67024 TD
( )Tj
T*
( )Tj
T*
( )Tj
T*
( )Tj
0 -2.67023 TD
(B. PRESENTATIONS )Tj
/TT1 1 Tf
0 -2.69736 TD
( )Tj
/TT2 1 Tf
0 -2.64313 TD
(Nadine Aubry)Tj
/TT1 1 Tf
0 -2.69736 TD
(August 1998: Workshop on Applications of DNS/LES to geophysical and Indu\
strial Flows, Istanbul, Turkey \(Invited\))Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(20 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
829 0 obj 2428
endobj
830 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 585.7597 Tm
(Hierarchical order in wall-bounded shear turbulence)Tj
/TT1 1 Tf
( )Tj
0 -2.67171 TD
(November 1998: 51st Annual Meeting of the Division of Fluid Dynamics \(A\
PS\), Philadelphia, Pennsylvania )Tj
/TT0 1 Tf
0 -2.66878 TD
(Control of vortex breakdown in a rotating flow: Numerical Simulation )Tj
0 -2.67024 TD
(Active feedback control of vortex shedding past a cylinder based on a lo\
w dimensional model)Tj
T*
(One dimensional approach to the flow structures in a cavity)Tj
/TT1 1 Tf
0 -2.67171 TD
(July 1999: Department of the Navy, Arlington, VA )Tj
/TT0 1 Tf
0 -2.66876 TD
(Flow control for fast hydrofoils)Tj
/TT1 1 Tf
0 -2.67172 TD
( )Tj
/TT2 1 Tf
0 -2.64313 TD
(John Bechtold)Tj
/TT1 1 Tf
0 -2.69736 TD
(July 1998: Twenty-Seventh International Symposium on Combustion, Boulder\
, CO)Tj
/TT0 1 Tf
0 -2.66876 TD
(Effects of Stoichiometry on Stretched Premixed Flames)Tj
/TT1 1 Tf
0 -2.67172 TD
(November 1998: Annual Meeting of The American Physical Society, Division\
of Fluid Dynamics, Philadelphia, PA)Tj
/TT0 1 Tf
0 -2.66876 TD
(Effects of Preferential Diffusion on a Flame in a Strained Flow Field)Tj
/TT1 1 Tf
0 -2.67171 TD
(March 1999: Joint Meeting of the United States Sections of the Combustio\
n Institute, Washington, DC)Tj
/TT0 1 Tf
0 -2.67024 TD
(Effects of Stoichiometry on Stretched Premixed Flames)Tj
/TT1 1 Tf
( )Tj
0 -2.67172 TD
( )Tj
/TT2 1 Tf
0 -2.64313 TD
(Manish Bhattacharjee)Tj
/TT1 1 Tf
0 -2.69736 TD
(October 1998: IISA Annual Meeting, McMaster University, Hamilton, Ontari\
o, Canada)Tj
/TT0 1 Tf
0 -2.66876 TD
(Modeling Repairable Systems)Tj
/TT1 1 Tf
0 -2.67171 TD
( )Tj
/TT2 1 Tf
0 -2.64314 TD
(Denis Blackmore)Tj
/TT1 1 Tf
0 -2.69734 TD
(January 1999: Int. Conf. on Quality Manufacturing, Stellenbosch, South A\
frica, Invited)Tj
/TT0 1 Tf
0 -2.66878 TD
(Quasi-optimal Paths in Automated Assembly)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(21 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
831 0 obj 2654
endobj
832 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 570.39343 Tm
(March 1999: )Tj
/TT1 1 Tf
(Johns Hopkins University \(Invited\))Tj
/TT0 1 Tf
0 -2.67024 TD
(Regular and Chaotic Motions of Coaxial Vortex Rings)Tj
/TT1 1 Tf
0 -2.67171 TD
(April 1999: Annual GAMM Conf., Metz, France \(Invited\))Tj
/TT0 1 Tf
0 -2.66878 TD
(Transition From Quasiperiodicity to Chaos for Three Coaxial Vortex Rings\
)Tj
/TT1 1 Tf
0 -2.67171 TD
(May 1999: Third Int. Conf. on Dynamic Systems and Applic., Atlanta, GA \(\
Invited\))Tj
/TT0 1 Tf
0 -2.66876 TD
(Chaos in Granular Flows)Tj
0 -2.67172 TD
(June 1999: )Tj
/TT1 1 Tf
(IUTAM Conf. on Segregation in Granular Flow, Cape May, NJ, Co-organizer \
of conference)Tj
/TT0 1 Tf
0 -2.67024 TD
(Dynamics of a Two Species Granular Flow)Tj
/TT1 1 Tf
0 -2.67171 TD
( )Tj
/TT2 1 Tf
0 -2.64314 TD
(Victoria Booth)Tj
/TT1 1 Tf
0 -2.69734 TD
(April 1999: Opening symposium for the Center for Computational Biology a\
nd Bioengineering, NJIT)Tj
/TT0 1 Tf
0 -2.66878 TD
(Hippocampal place cells and the generation of temporal codes)Tj
/TT1 1 Tf
0 -2.67171 TD
(January 1999: Bi-Co Mathematics Colloquium, Bryn Mawr College)Tj
/TT0 1 Tf
0 -2.66876 TD
(Modeling bistable firing behavior in vertebrate motoneurons)Tj
/TT1 1 Tf
0 -2.67172 TD
(July 1998: Poster presentation, CNS*98, Seventh Annual Computational Neu\
roscience Meeting, Santa Barbara)Tj
/TT0 1 Tf
0 -2.66876 TD
(Dendritic plateau potentials in models of bistable motoneurons: Biophysi\
cal implications investigated using genetic algorithms)Tj
/TT1 1 Tf
0 -2.67172 TD
( )Tj
/TT2 1 Tf
0 -2.64313 TD
(Michael Booty)Tj
/TT1 1 Tf
0 -2.69736 TD
(August 1998: 27th International Symposium on Combustion, Boulder, CO, Co\
ntributed poster)Tj
0 -2.67023 TD
(February 1999: Department of Mechanical and Aerospace Engineering, Lehig\
h University, Bethlehem, PA. Invited seminar)Tj
0 -2.67024 TD
(March 1999: First Joint Meeting of the U.S. Sections of the Combustion I\
nstitute, Washington DC. Contributed talks and poster)Tj
T*
(May 1999: 18th International Conference on Incineration and Thermal Trea\
tment Technologies, Orlando, FL. Contributed talk)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(22 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
833 0 obj 2198
endobj
834 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 580.99854 Tm
( )Tj
0 -2.67024 TD
(Amit Bose)Tj
/TT1 1 Tf
0 -2.69736 TD
(September 1998: Conference on Waves and Continuation Methods in Biology,\
Pittsburgh, PA)Tj
/TT2 1 Tf
0 -2.66876 TD
(A temporal mechanism for control of the phase precession of hippocampal \
place cells)Tj
/TT1 1 Tf
0 -2.67171 TD
(October 1998: CMBN Neuroscience Day, Rutgers University, Newark, NJ )Tj
/TT2 1 Tf
0 -2.66878 TD
(A temporal mechanism for control of the phase precession of hippocampal \
place cells)Tj
/TT1 1 Tf
0 -2.67171 TD
(October 1998: Mathematics Colloquium, Georgetown University)Tj
/TT2 1 Tf
0 -2.66876 TD
(Non-local reaction diffusion equations)Tj
/TT1 1 Tf
0 -2.67172 TD
(May 1999: 5th SIAM Conference on Dynamical Systems, Snowbird, UT)Tj
/TT2 1 Tf
0 -2.66876 TD
(Non-local reaction-diffusion equations for microwave heating application\
s)Tj
/TT1 1 Tf
0 -2.67172 TD
( )Tj
/TT0 1 Tf
0 -2.64313 TD
(Bruce Bukiet)Tj
/TT1 1 Tf
0 -2.69734 TD
(May 1999)Tj
/TT2 1 Tf
(: )Tj
/TT1 1 Tf
(Association of Math Teachers of New Jersey, Regional Conference, College\
of New Jersey)Tj
/TT2 1 Tf
0 -2.67172 TD
(Why Study Math)Tj
/TT1 1 Tf
( )Tj
T*
( )Tj
/TT0 1 Tf
0 -2.64313 TD
(Hans Chaudhry)Tj
/TT1 1 Tf
0 -2.69734 TD
(March 1999: Annual Research Day, UMDNJ, Stratford, NJ)Tj
/TT2 1 Tf
0 -2.66878 TD
(Adaptation of Passive Left Ventricle in Diastolic Dysfunction)Tj
/TT1 1 Tf
0 -2.67171 TD
(April 1999: Opening Symposium, Center for Computational Biology and Bioe\
ngineering, NJIT, Newark)Tj
/TT2 1 Tf
0 -2.66876 TD
(Stress Analysis in the Cardiovascular System and Skin)Tj
/TT0 1 Tf
0 -2.64461 TD
( )Tj
0 -2.67024 TD
(Nuno Crato)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(23 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
835 0 obj 2559
endobj
836 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 585.7597 Tm
(August 99: Joint Statistical Meetings, Dallas, TX)Tj
/TT1 1 Tf
0 -2.66876 TD
(On the behavior of Tanaka's test in the presence of fractionally integra\
ted models)Tj
0 -2.67024 TD
(Heavy tails in randomized search algorithms)Tj
/TT2 1 Tf
0 -2.64461 TD
( )Tj
0 -2.67024 TD
(Sunil K. Dhar)Tj
/TT0 1 Tf
0 -2.69734 TD
(October 1998: International Indian Statistical Association, Internationa\
l conference 1998, McMaster University, Hamilton, Canada)Tj
/TT1 1 Tf
0 -2.66878 TD
(Data Analysis with discrete analog of Freund's model)Tj
/TT2 1 Tf
0 -2.64461 TD
( )Tj
0 -2.67024 TD
(Vladislav V. Goldberg)Tj
/TT0 1 Tf
0 -2.69734 TD
(September 1998: NJIT Mathematics Department Seminar, 1-hour talk)Tj
/TT1 1 Tf
0 -2.66876 TD
(Conformal Rigidity of Hypersurfaces)Tj
/TT0 1 Tf
0 -2.67172 TD
(October 1998: International Congress in Honour of Pasquale Calapso, Univ\
ersity of Messina, Messina, Italy; 1-hour invited plenar)Tj
(y lecture)Tj
/TT1 1 Tf
0 -2.66876 TD
(Continuity of Generations: Calapso\222s Family of Geometers \(Pasquale, \
Renato, and Maria Teresa\).)Tj
0 -2.67172 TD
(Lightlike Hypersurfaces on a Manifold Endowed with a Pseudoconformal Str\
ucture of Index \(2, 2\))Tj
/TT0 1 Tf
( )Tj
0 -2.67171 TD
(March 1999: The Eighth International Conference in Geometry, University \
of Haifa, Israel; 1-hour invited plenary lecture)Tj
/TT1 1 Tf
0 -2.67024 TD
(Webs, Local Quasigroups, and Local Algebras)Tj
/TT0 1 Tf
( )Tj
/TT2 1 Tf
0 -2.64461 TD
( )Tj
0 -2.67024 TD
(Gregory A. Kriegsmann)Tj
/TT0 1 Tf
0 -2.69736 TD
(June 1998: Fourth International Conference on Mathematical and Numerical\
Aspects of Wave Propagation, Golden, CO)Tj
/TT1 1 Tf
0 -2.66876 TD
(Scattering from Large Resonant Structures)Tj
/TT0 1 Tf
0 -2.67171 TD
(February 1999: Department of Mathematics, RPI, Troy, NY)Tj
/TT1 1 Tf
0 -2.66878 TD
(Microwave Heating of Materials: A Mathematical Overview)Tj
/TT0 1 Tf
0 -2.67171 TD
(April 1999: Department of Electrical Engineering, IIT, Chicago, IL)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(24 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
837 0 obj 2221
endobj
838 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 570.40765 Tm
(Microwave Heating of Materials: A Mathematical and Physical Overview)Tj
/TT1 1 Tf
0 -2.64461 TD
( )Tj
0 -2.67024 TD
(Dawn Lott-Crumpler)Tj
/TT2 1 Tf
0 -2.69734 TD
(September 1998: Minorities and Applied Mathematics Connections to Indust\
ry and National Laboratories, Berkeley CA)Tj
/TT0 1 Tf
0 -2.66878 TD
(The quasilinear wave equations governing antiplane axisymmetric shearing\
)Tj
/TT2 1 Tf
0 -2.67171 TD
(October 1998: Bryn Mawr University, Bryn Mawr, PA)Tj
/TT0 1 Tf
0 -2.66876 TD
(The formation and properties of shear bands)Tj
/TT2 1 Tf
0 -2.67172 TD
(October 1998: St. Joseph's University, Philadelphia, PA)Tj
/TT0 1 Tf
0 -2.66876 TD
(The formation and properties of shear bands)Tj
/TT2 1 Tf
0 -2.67172 TD
( )Tj
0 -2.67024 TD
( )Tj
/TT1 1 Tf
0 -2.64313 TD
(Jonathan Luke)Tj
/TT2 1 Tf
0 -2.69734 TD
(January 1999: AFOSR Electromagnetics Workshop, San Antonio, TX)Tj
/TT0 1 Tf
0 -2.67024 TD
(A Finite-Difference Method for Dispersive Waves in Inhomogeneous Materia\
ls)Tj
/TT2 1 Tf
( )Tj
0 -2.67172 TD
(May 1999)Tj
/TT0 1 Tf
(:)Tj
/TT2 1 Tf
( 1999 SIAM Annual Meeting, Atlanta, GA)Tj
/TT0 1 Tf
0 -2.67024 TD
(A High-Order Finite-Difference Method of Linear Hyperbolic Systems)Tj
/TT2 1 Tf
0 -2.67171 TD
( )Tj
/TT1 1 Tf
0 -2.64314 TD
(Eliza Michalopoulou)Tj
/TT2 1 Tf
0 -2.69734 TD
(September 1998)Tj
/TT0 1 Tf
(: )Tj
/TT2 1 Tf
(Proceedings of the Fourth European Conference on Underwater Acoustics,)Tj
0 -2.67172 TD
(Rome, Italy)Tj
/TT0 1 Tf
0 -2.66876 TD
(An efficient implementation of broadband matched field processing for a \
known source spectrum)Tj
0 -2.67024 TD
(Global optimization in matched field inversion)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(25 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
839 0 obj 2452
endobj
840 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 580.72327 Tm
(October 1998: 136th Meeting of the Acoustical Society of America, Journa\
l of the Acoustical Society of America, vol. 104, no. 3,)Tj
( part 2, pp. 1739, Norfolk)Tj
/TT1 1 Tf
0 -2.66876 TD
(Coherent and incoherent shallow water matched field inversion)Tj
/TT0 1 Tf
0 -2.67172 TD
(March 1999: Rennselaer Polytechnic Institute \(Invited\))Tj
/TT1 1 Tf
0 -2.67024 TD
(Temporally and spatially coherent underwater sound inversion for target \
localization and geoacoustic inversion)Tj
/TT0 1 Tf
( )Tj
0 -2.67171 TD
(May 1999: Fourth International Conference on Theoretical and Computation\
al Acoustics, Trieste, Italy)Tj
/TT1 1 Tf
0 -2.66878 TD
(Objective Function selection for shallow water geoacoustic inversion)Tj
/TT0 1 Tf
0 -2.67171 TD
(May 1999, Herakleion, Greece)Tj
/TT1 1 Tf
0 -2.66876 TD
(Impulse response estimation for inversion and source localization)Tj
/TT2 1 Tf
0 -2.64461 TD
( )Tj
0 -2.67024 TD
(Petronije Milojevic)Tj
/TT0 1 Tf
0 -2.69736 TD
(January 1999: Nonlinear Differential Equations Conference, the Universit\
y of Miami, Coral Gables, FL)Tj
/TT1 1 Tf
0 -2.66876 TD
(Existence and the number of solutions of nonresonant semilinear equation\
s and applications)Tj
0 -2.67172 TD
(to BVP's)Tj
/TT0 1 Tf
( )Tj
0 -2.67171 TD
( )Tj
/TT2 1 Tf
0 -2.64313 TD
(Farzan Nadim)Tj
/TT0 1 Tf
0 -2.69736 TD
(July 1998: Computational Neuroscience Meeting, Santa Barbara, CA.)Tj
0 -2.67024 TD
(October 1998: Biomedical Engineering Society Annual Meeting, Cleveland, \
OH.)Tj
T*
(November 1998: Society for Neuroscience Annual Meeting, Los Angeles, CA.\
)Tj
T*
(April 1999: East Coast Nerve Net, Woods Hole, MA.)Tj
T*
(April 1999: Center for Computational Biology and Bioengineering Opening \
Symposium, NJIT, Newark, NJ.)Tj
T*
(April 1999: Center for Molecular and Cellular Neuroscience, Rutgers Univ\
ersity, Newark, NJ.)Tj
/TT2 1 Tf
0 -2.64313 TD
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(26 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
841 0 obj 2529
endobj
842 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 586.02069 Tm
( )Tj
0 -2.67024 TD
( )Tj
T*
( )Tj
T*
(Demetrius Papageorgiou)Tj
/TT1 1 Tf
0 -2.69734 TD
(June 1998. American Chemical Society, Colloid and Interface Science Symp\
osium. Penn State. )Tj
/TT2 1 Tf
(Surfactant control of wake formation at the back end of a rising bubble \
at )Tj
0 -1.2 TD
(order one Reynolds numbers)Tj
/TT1 1 Tf
0 -2.67172 TD
(November 1998: Annual Meeting of the American Institute of Chemical Engi\
neers, Miami, FL)Tj
/TT2 1 Tf
0 -2.66876 TD
(Chaos in a class of exact solutions of the Navier-Stokes equations )Tj
0 -2.67024 TD
(Experimental manifestation of absolute instability in a single jet)Tj
0 -2.67172 TD
(Particle concentration instability in Couette flows of concentrated susp\
ensions)Tj
/TT1 1 Tf
( )Tj
0 -2.67171 TD
(November 1998: American Physical Society, 51st Annual Meeting of the Div\
ision of Fluid Dynamics)Tj
/TT2 1 Tf
0 -2.66876 TD
(Chaos in a class of exact solutions of the Navier-Stokes equations )Tj
0 -2.67024 TD
(On the effects of generalized dispersion on dissipative dynamical system\
s with applications to core-annular flows )Tj
/TT1 1 Tf
0 -2.67172 TD
( )Tj
/TT0 1 Tf
0 -2.64313 TD
(Peter Petropoulos)Tj
/TT1 1 Tf
0 -2.69736 TD
(June 1998: Presentation at Workshop in Honor of Prof. V. Ryaben'kii, Int\
ernational Conference on Spectral and High Order Methods)Tj
(, Israel \(Invited\))Tj
/TT2 1 Tf
0 -2.66876 TD
(Reflectionless Sponge Layers as ABCs for the Numerical Solution of Maxwe\
ll's Equations)Tj
/TT1 1 Tf
0 -2.67172 TD
(January 1999: AFOSR Annual Electromagnetics Workshop, San Antonio, TX \(\
Invited\))Tj
/TT2 1 Tf
0 -2.66876 TD
(Numerical Dispersion and Absorbing Boundary Conditions)Tj
/TT1 1 Tf
0 -2.67171 TD
(April 1999: Division of Scientific Computing, Lucent Technologies, NJ \(\
Invited\))Tj
/TT2 1 Tf
0 -2.67024 TD
(Reflectionless Sponge Layers for Computational Electromagnetics)Tj
/TT1 1 Tf
( )Tj
/TT0 1 Tf
0 -2.64461 TD
( )Tj
0 -2.67024 TD
(Michael Porter)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(27 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
843 0 obj 2337
endobj
844 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 584.5354 Tm
(1999: Third International Conference on Theoretical and Computational Ac\
oustics, Trieste, Italy)Tj
/TT1 1 Tf
0 -2.67024 TD
(Assessment of 3D effects in the Key West experiment)Tj
/TT0 1 Tf
( \(Invited\))Tj
/TT1 1 Tf
T*
(Ray and beam shift in the time-domain)Tj
/TT0 1 Tf
0 -2.67171 TD
(1999: 137th Meeting of the Acoustical Society of America/2nd Convention \
of the European Acoustics Association, Berlin, Germany)Tj
/TT1 1 Tf
0 -2.66878 TD
(Hyperthermia therapy using phase conjugation)Tj
/TT2 1 Tf
0 -2.64461 TD
( )Tj
0 -2.67024 TD
(Bonnie Ray)Tj
/TT0 1 Tf
0 -2.69736 TD
(March 1999: Symposium in Honor of Peter Lewis, Naval Postgraduate School\
, Monterey, CA \(Invited\))Tj
/TT1 1 Tf
0 -2.66876 TD
(Modeling nonlinear periodic time series using TSMARS)Tj
/TT0 1 Tf
0 -2.67172 TD
(August, 1998: European Meeting of Statisticians, Vilnius, LT \(Invited\)\
)Tj
/TT1 1 Tf
0 -2.67024 TD
(Identification and estimation of common long-range dependence in a vecto\
r process)Tj
/TT0 1 Tf
( )Tj
0 -2.67171 TD
(August,1998: Workshop on Nonlinear and Nonstationary Signal Processing o\
f Environmental Time Series, Newton Institute, Cambridge)Tj
(, UK)Tj
/TT1 1 Tf
0 -2.66878 TD
(Nonparametric estimation of vector climate series)Tj
/TT2 1 Tf
0 -2.64461 TD
( )Tj
0 -2.67024 TD
( )Tj
T*
( )Tj
T*
( )Tj
T*
(Michael Siegel)Tj
/TT0 1 Tf
0 -2.69736 TD
(March 1999: Applied Math Seminar, Ohio State University)Tj
/TT1 1 Tf
0 -2.66876 TD
(Cusp formation for evolving bubbles in 2-D Stokes flow: the effect of va\
riable surface tension)Tj
/TT0 1 Tf
0 -2.67171 TD
(August 1998: Hele-Shaw Flow Centennial Meeting, Oxford, England)Tj
/TT1 1 Tf
0 -2.66878 TD
(Singularity formation for evolving bubbles with non-constant surface ten\
sion in 2-D Stokes flow)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(28 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
845 0 obj 2675
endobj
846 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 585.7597 Tm
(February 1999: Computational and Applied Math Seminar, SUNY Stony Brook)Tj
/TT1 1 Tf
0 -2.66876 TD
(Effects of small surface tension in free surface flow)Tj
0 -2.67172 TD
(November 1998: )Tj
/TT0 1 Tf
(APS Division of Fluid Dynamics Annual Meeting, Philadelphia, PA)Tj
/TT1 1 Tf
0 -2.67171 TD
(Cusp formation for evolving bubbles in 2-D Stokes flow: the effect of va\
riable surface tension)Tj
/TT0 1 Tf
( )Tj
0 -2.67172 TD
(July 1998: Mini-Symposium on High Resolution and Robust Interface Method\
s and Applications, SIAM Annual Meeting, Toronto, Canada)Tj
/TT1 1 Tf
0 -2.66876 TD
(Influence of surfactant in bubble dynamics for slow viscous flow)Tj
/TT0 1 Tf
0 -2.67172 TD
( )Tj
/TT2 1 Tf
0 -2.64313 TD
(Burt Tilley)Tj
/TT0 1 Tf
0 -2.69734 TD
(November 1998: American Physical Society-Division of Fluid Dynamics Annu\
al Meeting, Philadelphia, PA)Tj
/TT1 1 Tf
0 -2.66878 TD
(Potential flow instabilities in a thin fluid sheet)Tj
0 -2.67171 TD
(Oblique two-fluid stagnation point flow)Tj
/TT0 1 Tf
(.)Tj
0 -2.67172 TD
(April 1999: Department of Mathematical Sciences, University of Delaware,\
Newark, DE)Tj
/TT1 1 Tf
0 -2.66876 TD
(Potential flow instabilities in a thin fluid sheet)Tj
/TT0 1 Tf
0 -2.67172 TD
(April 1999: Department of Mathematical Sciences, University of Massachus\
etts-Lowell, Lowell, MA)Tj
/TT1 1 Tf
0 -2.66876 TD
(Potential flow instabilities in a thin fluid sheet)Tj
/TT2 1 Tf
0 -2.64461 TD
( )Tj
0 -2.67024 TD
(Amir Yefet)Tj
/TT0 1 Tf
0 -2.69734 TD
(May 1999: Informal Seminar on Wave Propagation, NJIT)Tj
/TT1 1 Tf
0 -2.67024 TD
(Construction Of Fourth Order Accurate Implicit Scheme for Maxwell's Equa\
tions)Tj
/TT0 1 Tf
(. )Tj
0 -2.67172 TD
(May 1999: Brown University)Tj
/TT1 1 Tf
0 -2.67024 TD
(Construction of Fourth Order Accurate Compact Schemes For Maxwell's Equa\
tions)Tj
/TT0 1 Tf
(. Brown University.)Tj
0 -2.67171 TD
(January 1999: AFOSR Workshop on Electromagnetics)Tj
/TT1 1 Tf
(,)Tj
/TT0 1 Tf
( San Antonio, TX)Tj
/TT1 1 Tf
0 -2.67024 TD
(On the Construction of a High Order Difference Scheme for Complex Domain\
s in a Cartesian Grid)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(29 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
847 0 obj 3206
endobj
848 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 570.5976 Tm
( )Tj
0 -2.67024 TD
(C. CAMS REPORTS)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 73.38852 519.17688 Tm
(1. )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 86.42709 519.17688 Tm
(M.A. Akivis and V.V. Goldberg )Tj
/TT1 1 Tf
0 -2.69588 TD
(The Geometry of Lightlike Hypersurfaces of the De Sitter Space)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 73.38852 467.49521 Tm
(2. )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 86.42709 467.49521 Tm
(Amitabha)Tj
/TT2 1 Tf
( )Tj
/TT0 1 Tf
(Bose )Tj
/TT1 1 Tf
T*
(A Geometric Approach to Singularly Perturbed Non-Local Reaction Diffusio\
n Equations)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 73.38852 416.07452 Tm
(3. )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 86.42709 416.07452 Tm
(Michael Siegel )Tj
/TT1 1 Tf
T*
(Cusp Formation for Evolving Bubbles in 2-D Stokes Flow: The Effect of Va\
riable Surface Tension)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 73.38852 364.65384 Tm
(4. )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 86.42709 364.65384 Tm
(Peter G. Petropoulos )Tj
/TT1 1 Tf
T*
(Reflectionless Sponge Layers as Absorbing Boundary Conditions for the Nu\
merical Solution of Maxwell\222s Equations in Rectangular, )Tj
(Cylindrical and Spherical )Tj
0 -1.2 TD
(Coordinates)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 73.38852 301.67902 Tm
(5. )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 86.42709 301.67902 Tm
(Baolin Yang and Peter G. Petropoulos )Tj
/TT1 1 Tf
0 -2.69588 TD
(Plane-Wave Analysis and Comparison of the Split-Field, Biaxial and Uniax\
ial PML ABC Methods for Pseudospectral Electromagnetic W)Tj
(ave Simulations in )Tj
0 -1.2 TD
(Curvilinear Coordinates)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 73.38852 238.70415 Tm
(6. )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 86.42709 238.70415 Tm
(Nuno Crato and Leslie Dowling-DaCosta)Tj
/TT1 1 Tf
-6.19048 -2.69588 Td
(On the Behavior of Some Estimators for the Index of Stability)Tj
/TT0 1 Tf
0 -2.64461 TD
(9899-7 Peter G. Petropoulos)Tj
/TT1 1 Tf
0 -2.69588 TD
(Numerical Dispersion and Absorbing Boundary Conditions)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 73.38852 135.86278 Tm
(8. )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 86.42709 135.86278 Tm
(P.S. Milojevic )Tj
/TT1 1 Tf
T*
(Nonresident Semilinear Equations and Applications to Boundary Value Prob\
lems)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 73.38852 84.44209 Tm
(9. )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 86.42709 84.44209 Tm
(Amitabha Bose, Victoria Booth, and Michael Recce )Tj
/TT1 1 Tf
T*
(A Mechanism for Temporal Control of the Phase Precession of Hippocampal \
Place Cells)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 68.1731 33.02141 Tm
(10. )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 86.42709 33.02141 Tm
(Dimitri Alexandrou, Zoi-Heleni Michalopoulou, and Dimitris Pantzartzis )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(30 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
849 0 obj 3192
endobj
850 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 86.42709 583.06427 Tm
(Slope Effects in Sidescan Bathymetry)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 68.1731 557.60071 Tm
(11. )Tj
/TT1 1 Tf
9.62848 0 0 9.62848 86.42709 557.60071 Tm
(J. Abbott, A. Bose, J. Haus, T. Witelski, and S. Zabrenski )Tj
/TT0 1 Tf
0 -2.69588 TD
(Measurement of Modal Power in Optical Fibers)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 68.1731 506.18002 Tm
(12. )Tj
/TT1 1 Tf
9.62848 0 0 9.62848 86.42709 506.18002 Tm
(A. Yefet and E. Turkel )Tj
/TT0 1 Tf
T*
(Construction of Three Dimensional Solutions for the Maxwell Equations)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 68.1731 454.75937 Tm
(13. )Tj
/TT1 1 Tf
9.62848 0 0 9.62848 86.42709 454.75937 Tm
(H.R. Chaudhry, B. Bukiet, M. Siegel, T. Findley, A.B. Ritter, and N. Guz\
elsu )Tj
/TT0 1 Tf
T*
(Adaptation of Passive Rat Left Ventricle in Diastolic Dysfunction)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 68.1731 403.33868 Tm
(14. )Tj
/TT1 1 Tf
9.62848 0 0 9.62848 86.42709 403.33868 Tm
(J.K. Bechtold and M. Matalon )Tj
/TT0 1 Tf
T*
(Effects of Stoichiometry on Stretched Premixed Flames)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 68.1731 351.91803 Tm
(15. )Tj
/TT1 1 Tf
9.62848 0 0 9.62848 86.42709 351.91803 Tm
(V. Booth )Tj
/TT0 1 Tf
T*
(A Genetic Algorithm Study on the Influence of Dendritic Plateau Potentia\
ls on Bistable Spiking in Motoneurons )Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 68.1731 300.49731 Tm
(16. )Tj
/TT1 1 Tf
9.62848 0 0 9.62848 86.42709 300.49731 Tm
(A. Yefet )Tj
/TT0 1 Tf
T*
(Stability of the Numerical Boundary Conditions Imposed by the Ty\(2,4\) \
Scheme )Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 68.1731 249.07663 Tm
(17. )Tj
/TT1 1 Tf
9.62848 0 0 9.62848 86.42709 249.07663 Tm
(A. Yefet )Tj
/TT0 1 Tf
0 -2.76193 TD
(Numerical )Tj
/TT2 1 Tf
(d)Tj
/TT0 1 Tf
( Function)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 68.1731 197.01988 Tm
(18. )Tj
/TT1 1 Tf
9.62848 0 0 9.62848 86.42709 197.01988 Tm
(F. Nadim, Y. Manor, N. Kopell, and E. Marder )Tj
/TT0 1 Tf
0 -2.69588 TD
(Synaptic Depression Creates a Switch That Controls the Frequency of an O\
scillatory Circuit)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 68.1731 145.5992 Tm
(19. )Tj
/TT1 1 Tf
9.62848 0 0 9.62848 86.42709 145.5992 Tm
(A. Akivis and V. Goldberg)Tj
/TT0 1 Tf
-6.19048 -2.69588 Td
(Differential Geometry of Webs)Tj
/TT1 1 Tf
0 -2.64461 TD
(9899-20 S. Abarbanel, A. Chertock, and A. Yefet)Tj
/TT0 1 Tf
0 -2.69588 TD
(Strict Stability of High-Order Compact Implicit Finite-Difference Scheme\
s--The Role of Boundary Conditions for Hyperbolic PDEs)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 68.1731 42.75784 Tm
(21. )Tj
/TT1 1 Tf
9.62848 0 0 9.62848 86.42709 42.75784 Tm
(Zoi-Heleni Michalopoulou )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(31 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
851 0 obj 3067
endobj
852 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 86.42709 585.77393 Tm
(Matched-Impulse-Response Processing for Shallow Water Localization and G\
eoacoustics Inversion)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 68.1731 560.31036 Tm
(22. )Tj
/TT1 1 Tf
9.62848 0 0 9.62848 86.42709 560.31036 Tm
(P.S. Milojevic )Tj
/TT0 1 Tf
0 -2.69588 TD
(Existence and the Number of Solutions of Nonresonant Semilinear Equation\
s and Application to Boundary Value Problems)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 68.1731 508.88971 Tm
(23. )Tj
/TT1 1 Tf
9.62848 0 0 9.62848 86.42709 508.88971 Tm
(Jonathan H.C. Luke )Tj
/TT0 1 Tf
T*
(Stability of Some Green\222s-Function-Based Methods Applied to Nondisper\
sive Linear Wave Equations)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 68.1731 457.48801 Tm
(24. )Tj
/TT2 1 Tf
9.62848 0 0 9.62848 86.42709 457.48801 Tm
(Amit Bose, Nancy Kopell, and David Terman )Tj
/TT0 1 Tf
0 -2.69785 TD
(Almost-Synchronous Solutions for Networks of Neurons Coupled by Excitati\
on)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 68.1731 406.04834 Tm
(25. )Tj
/TT1 1 Tf
9.62848 0 0 9.62848 86.42709 406.04834 Tm
(Gregory A. Kriegsmann )Tj
/TT0 1 Tf
0 -2.69588 TD
(Pattern Formation in Microwave Heated Ceramics: Cylinders and Slabs)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 68.1731 354.62766 Tm
(26. )Tj
/TT1 1 Tf
9.62848 0 0 9.62848 86.42709 354.62766 Tm
(Vladislav V. Goldberg )Tj
/TT0 1 Tf
T*
(A Classification and Examples of Four-Dimensional Isoclinic Three-Webs)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 68.1731 303.22595 Tm
(27. )Tj
/TT2 1 Tf
9.62848 0 0 9.62848 86.42709 303.22595 Tm
(M.A. Akivis and V.V. Goldberg )Tj
/TT0 1 Tf
0 -2.69785 TD
(Lightlike Hypersurfaces on Manifolds Endowed with A Conformal Structure \
of Lorentzian Signature)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 68.1731 251.7863 Tm
(28. )Tj
/TT1 1 Tf
9.62848 0 0 9.62848 86.42709 251.7863 Tm
(Vladislav V. Goldberg )Tj
/TT0 1 Tf
0 -2.69588 TD
(Continuity of Generations: Calapso\222s Family of Geometers \(Pasquale, \
Renato, and Maria Teresa\))Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 68.1731 200.36562 Tm
(29. )Tj
/TT1 1 Tf
9.62848 0 0 9.62848 86.42709 200.36562 Tm
(Maks A. Akivis and Vladislav V. Goldberg)Tj
/TT0 1 Tf
-6.19048 -2.69588 Td
(Lightlike Hypersurfaces on A Four-Dimensional Manifold Endowed with A Ps\
eudoconformal Structure of Signature \(2,2\))Tj
/TT1 1 Tf
0 -2.64461 TD
( )Tj
0 -2.67024 TD
( )Tj
38.59018 -2.67024 Td
( )Tj
-10.68275 -2.67024 Td
(VI. CAMS MEMBER EXTERNAL ACTIVITIES AND AWARDS)Tj
/TT3 1 Tf
-21.71693 -2.69734 Td
( )Tj
/TT1 1 Tf
-6.19048 -2.64313 Td
(A. FACULTY)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(32 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
853 0 obj 2133
endobj
854 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 570.68286 Tm
( )Tj
0 -2.67024 TD
(Daljit S. Ahluwalia)Tj
/TT1 1 Tf
0 -2.69736 TD
(Member, United States National Committee/Theoretical and Applied Mechani\
cs, National Research Council, 1995-99.)Tj
0 -2.67023 TD
(Editorship, Mathematical Sciences Research Hot-Line International Journa\
l, 1999 onward.)Tj
/TT0 1 Tf
0 -2.64314 TD
( )Tj
0 -2.67024 TD
(Nadine Aubry)Tj
/TT1 1 Tf
0 -2.69734 TD
(Member, Prize Committee, American Physical Society, Division of Fluid Dy\
namics.)Tj
0 -2.67024 TD
(Member, Organizing Committee, 1998, American Physical Society Meeting/Di\
vision of Fluid Dynamics in Philadelphia, PA. )Tj
T*
(Chairperson, Session on Reacting Flows and Vortex Flows, 1998, American \
Physical Society Meeting/Division of Fluid Dynamics in P)Tj
(hiladelphia, PA.)Tj
T*
(Organizer and chairperson, Turbulence symposium at the 1998 American Ins\
titute of Chemical Engineers \(AIChE\) meeting in Miami. )Tj
T*
( )Tj
/TT0 1 Tf
0 -2.64313 TD
(Victoria Booth)Tj
/TT1 1 Tf
0 -2.69736 TD
(Member, Department of Mathematics Advisory Council, Passaic County Commu\
nity College)Tj
0 -2.67024 TD
( )Tj
/TT0 1 Tf
0 -2.64313 TD
(Bruce Bukiet)Tj
/TT1 1 Tf
0 -2.69734 TD
(Associate Editor, SIAM Journal on Scientific Computing)Tj
0 -2.67024 TD
( )Tj
/TT0 1 Tf
0 -2.64314 TD
(Vladislav V. Goldberg)Tj
/TT1 1 Tf
0 -2.69734 TD
(Editorial Board, Journal Webs and Quasigroups, Tver State University, Ru\
ssia )Tj
/TT0 1 Tf
0 -2.64313 TD
( )Tj
0 -2.67024 TD
(Gregory A. Kriegsmann)Tj
/TT1 1 Tf
0 -2.69736 TD
(Editor-in-Chief, SIAM Journal on Applied Mathematics)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(33 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
855 0 obj 1923
endobj
856 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 580.79437 Tm
(Editorial Board, Journal of Engineering Mathematics)Tj
0 -2.67024 TD
(Editorial Board, IMA Journal on Applied Mathematics)Tj
T*
(Editorial Board, Journal of Analysis and Applications)Tj
T*
( )Tj
/TT1 1 Tf
0 -2.64313 TD
(Petronije Milojevic)Tj
/TT0 1 Tf
0 -2.69734 TD
(Editorial Board, Communications on Applied Nonlinear Analysis)Tj
0 -2.67024 TD
(Editorial Board, Facta Universitatis)Tj
T*
( )Tj
/TT1 1 Tf
0 -2.64314 TD
(Demetrius Papageorgiou)Tj
/TT0 1 Tf
0 -2.69734 TD
(Associate Editor, SIAM Journal on Applied Mathematics)Tj
/TT1 1 Tf
0 -2.64313 TD
( )Tj
0 -2.67024 TD
(Burt S. Tilley:)Tj
/TT0 1 Tf
0 -2.69736 TD
(Session Chair in the Viscous Flows 2 Section of the American Physical So\
ciety \226 Division of Fluid Dynamics Annual Meeting, Phila)Tj
(delphia, PA, November 1998)Tj
/TT2 1 Tf
8.02374 0 0 8.02374 26.8222 248.16666 Tm
( )Tj
/TT1 1 Tf
9.62848 0 0 9.62848 26.8222 223.03632 Tm
(B. STUDENTS)Tj
0 -2.67024 TD
(Undergraduate Activities and Achievements)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 43.58607 171.35463 Tm
(1. )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 56.62465 171.35463 Tm
(Our petition to found a chapter of Pi Mu Epsilon \(a national math honor\
s society\) at NJIT has been )Tj
T*
(unanimously approved. An initiation ceremony took place in Spring 99, an\
d 12 students were)Tj
T*
(inducted as charter members.)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(34 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
857 0 obj 1175
endobj
858 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
1 0 0 RG
1 w 10 M 0 j 0 J []0 d
56.62465 307.15146 403.07806 286.84854 re
S
BT
/TT0 1 Tf
8.02374 0 0 8.02374 56.62465 286.12839 Tm
(Pictured left to right: Dr. Daljit S. Ahluwalia \(Chairperson and Direct\
or of CAMS\), Prof. Burt S. Tilley, Robin Tanenbaum, Mathe)Tj
(w Detlet, Dorota Moscicka, Brandy Rapatski, Robert Gloria, Daniel Stier,\
)Tj
0 -1.2 TD
(Jose Henriques, Hoa Tran, Michelle DeBonis, Dr. Eileen Poiani \(Installi\
ng Officer, Vice President of St. Peter\222s College\), Prof.)Tj
( Amitabha Bose, Maria Barrios, Prof. John Bechtold \(Director of )Tj
T*
(Undergraduate Studies\), and Dr. John Poate \(Dean of CSLA\).)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(35 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
859 0 obj 611
endobj
860 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
1 0 0 RG
1 w 10 M 0 j 0 J []0 d
56.62465 138.76764 493.97552 455.23236 re
S
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(36 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
861 0 obj 2550
endobj
862 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
1 0 0 RG
1 w 10 M 0 j 0 J []0 d
56.62465 443.49765 489.50516 150.50235 re
S
BT
/TT0 1 Tf
9.62848 0 0 9.62848 56.62465 421.1012 Tm
( )Tj
0 -2.67024 TD
( )Tj
T*
( )Tj
T*
( )Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 43.58607 318.25983 Tm
(2. )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 56.62465 318.25983 Tm
(One of our students, Robin Tanenbaum, was the Class of '99 valedictorian\
. She was honored at )Tj
-3.09525 -2.67024 Td
(Commencement for being the only student in this year\222s graduating cla\
ss to achieve straight "A"\222s )Tj
T*
(throughout her college career.)Tj
T*
(3. One of our students, Michelle DeBonis, was the Class of '98 valedicto\
rian. )Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 43.58607 215.41849 Tm
(4. )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 56.62465 215.41849 Tm
(Michelle DeBonis participated at the Mathematical Modelling workshop hel\
d during summer 1998 )Tj
-3.09525 -2.67024 Td
(at RPI.)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 43.58607 163.9978 Tm
(5. )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 56.62465 163.9978 Tm
(Six of our students participated in the Research Experience for Undergra\
duates \(REU\) program in Summer 1998.)Tj
/T1_1 1 Tf
5.21542 0 0 5.21542 75.35474 138.28746 Tm
(m)Tj
/T1_0 1 Tf
( )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 86.42709 138.28746 Tm
(Michelle DeBonis: NJIT, Fluid Dynamics)Tj
/T1_1 1 Tf
5.21542 0 0 5.21542 75.35474 112.57712 Tm
(m)Tj
/T1_0 1 Tf
( )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 86.42709 112.57712 Tm
(Robert Gloria: NJIT, Fluid Dynamics)Tj
/T1_1 1 Tf
5.21542 0 0 5.21542 75.35474 86.86678 Tm
(m)Tj
/T1_0 1 Tf
( )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 86.42709 86.86678 Tm
(Steven Arturo: Montana State, Cellular Automata)Tj
/T1_1 1 Tf
5.21542 0 0 5.21542 75.35474 61.15645 Tm
(m)Tj
/T1_0 1 Tf
( )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 86.42709 61.15645 Tm
(Ivory Kilpatrick: Rutgers-Newark, Math Biology)Tj
/T1_1 1 Tf
5.21542 0 0 5.21542 75.35474 35.44611 Tm
(m)Tj
/T1_0 1 Tf
( )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 86.42709 35.44611 Tm
(Shirley Yap: Indiana, Dynamical Systems)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(37 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
863 0 obj 3188
endobj
864 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_1 1 Tf
5.21542 0 0 5.21542 75.35474 585.73572 Tm
(m)Tj
/T1_0 1 Tf
( )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 86.42709 585.73572 Tm
(Dorotka Moscicka: NASA-NJIT, Student Launch Program)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 43.58607 560.02539 Tm
(5. )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 56.62465 560.02539 Tm
(Two mathematics undergraduate students presented research papers at Mora\
vian College Math )Tj
-3.09525 -2.67024 Td
(Conference:)Tj
/T1_1 1 Tf
5.21542 0 0 5.21542 75.35474 508.60474 Tm
(m)Tj
/T1_0 1 Tf
( )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 86.42709 508.60474 Tm
(Steven Arturo: Cellular Automata: Computer Modeling of Microbes on a Gla\
ss Surface)Tj
/T1_1 1 Tf
5.21542 0 0 5.21542 75.35474 482.89438 Tm
(m)Tj
/T1_0 1 Tf
( )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 86.42709 482.89438 Tm
(Shirley Yap: Dynamics of Three-Piece Piecewise Linear Maps)Tj
-6.19048 -2.67024 Td
(7. Steven Arturo and Gem Patel participated in 13th Annual COMAP Applied\
Math Modeling Contest.)Tj
0 -2.67024 TD
(8.)Tj
/TT1 1 Tf
( )Tj
/TT0 1 Tf
(Undergraduate Students in demand:)Tj
/T1_1 1 Tf
5.21542 0 0 5.21542 75.35474 405.50238 Tm
(m)Tj
/T1_0 1 Tf
( )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 86.42709 405.50238 Tm
(Shirley Yap, University of Pennsylvania, Mathematics, Ph.D. Program)Tj
/T1_1 1 Tf
5.21542 0 0 5.21542 75.35474 379.79202 Tm
(m)Tj
/T1_0 1 Tf
( )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 86.42709 379.79202 Tm
(Dorotka Moscicka, Lucent Technologies)Tj
/T1_1 1 Tf
5.21542 0 0 5.21542 75.35474 354.0817 Tm
(m)Tj
/T1_0 1 Tf
( )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 86.42709 354.0817 Tm
(Robin Tanenbaum, IBM)Tj
/T1_1 1 Tf
5.21542 0 0 5.21542 75.35474 328.37134 Tm
(m)Tj
/T1_0 1 Tf
( )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 86.42709 328.37134 Tm
(Ivory Kilpatrick, Rutgers-Newark, Bio-medical Engineering, M.S. Program)Tj
/T1_1 1 Tf
5.21542 0 0 5.21542 75.35474 302.66101 Tm
(m)Tj
/T1_0 1 Tf
( )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 86.42709 302.66101 Tm
(Hoa Tran, NJIT, Applied Mathematics, Ph.D. Program)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 43.58607 276.95065 Tm
(9. )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 56.62465 276.95065 Tm
(Shirley Yap was awarded the National Physical Sciences Consortium \(NPSC\
\))Tj
-3.09525 -2.67024 Td
(Fellowship for Mathematics in 1999.)Tj
T*
(10. James Mawe and Dorota Moscicka received the Labh K. and Santokh S. A\
hluwalia Award for 1999.)Tj
T*
( )Tj
/T1_2 1 Tf
8.02374 0 0 8.02374 398.72232 175.45807 Tm
( )Tj
/TT1 1 Tf
9.62848 0 0 9.62848 320.2807 150.58566 Tm
(VII. CENTER FUNDING ACTIVITIES)Tj
-30.47818 -2.67024 Td
( )Tj
T*
(A. EXTERNALLY FUNDED RESEARCH)Tj
T*
( )Tj
T*
(CONTINUING FUNDED PROJECTS)Tj
/TT0 1 Tf
0 -2.69734 TD
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(38 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
865 0 obj 1673
endobj
866 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 572.07684 Tm
(1. Study of the Aerodynamics Through Fans)Tj
/TT1 1 Tf
0 -2.67171 TD
(Allied-Signal Inc.: April 1, 1998\226December 1, 1999 )Tj
0 -2.67024 TD
(Nadine Aubry)Tj
T*
(Pushpendra Singh)Tj
T*
( )Tj
/TT0 1 Tf
0 -2.66876 TD
(2. Applications of Differential Equations to Automated Manufacturing)Tj
/TT1 1 Tf
0 -2.67172 TD
(National Science Foundation: September 1995-August 1999)Tj
0 -2.67024 TD
(Denis Blackmore)Tj
T*
( )Tj
/TT0 1 Tf
0 -2.66876 TD
(3. A Dendritic Origin of Bistability and of Motoneuron Firing Patterns)Tj
/TT1 1 Tf
0 -2.67172 TD
(National Science Foundation, Division of Integrative Biology and Neurosc\
ience)Tj
0 -2.67024 TD
(September 1997-August 1999)Tj
0 -2.67023 TD
(Victoria Booth)Tj
0 -2.67024 TD
( )Tj
/TT0 1 Tf
0 -2.66878 TD
(4. Reactive Models for Front-Tracking Simulations)Tj
/TT1 1 Tf
0 -2.67171 TD
(Army Research Lab through Batelle: April 1998-November 1999)Tj
0 -2.67024 TD
(Bruce Bukiet)Tj
T*
( )Tj
/TT0 1 Tf
0 -2.66876 TD
(5. Student Launch Program)Tj
/TT1 1 Tf
0 -2.67172 TD
(NASA: June 1997 - December 1999)Tj
0 -2.67024 TD
(Bruce Bukiet)Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(39 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
867 0 obj 1825
endobj
868 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 582.44934 Tm
(6. Mathematical Sciences: Asymptotic and Singular Perturbation Methods f\
or Bifurcation )Tj
0 -2.67024 TD
(Problems with Applications)Tj
/TT1 1 Tf
0 -2.67172 TD
(National Science Foundation: August 1996-July 1999)Tj
0 -2.67023 TD
(Thomas Erneux)Tj
/TT2 1 Tf
0 -2.64314 TD
( )Tj
/TT0 1 Tf
0 -2.69588 TD
(7. Mathematical Sciences: Microwave Processing of Ceramic Materials)Tj
/TT1 1 Tf
0 -2.67171 TD
(National Science Foundation: July 1996-June 1999)Tj
0 -2.67024 TD
(Gregory A. Kriegsmann)Tj
T*
( )Tj
/TT0 1 Tf
0 -2.66876 TD
(8. Applied Mathematical Problems in Microwave Processing of Ceramic Mate\
rials)Tj
/TT1 1 Tf
0 -2.67172 TD
(Department of Energy, Office of Scientific Computing: 1994-2000)Tj
0 -2.67024 TD
(Gregory A. Kriegsmann)Tj
/TT0 1 Tf
0 -2.66876 TD
(9. Computational Problems in Modern Electromagnetics)Tj
/TT1 1 Tf
0 -2.67172 TD
(Air Force Office of Scientific Research: 1995-2000)Tj
0 -2.67023 TD
(Gregory A. Kriegsmann)Tj
0 -2.67024 TD
(Jonathan Luke)Tj
T*
(Cheryl Hile)Tj
T*
( )Tj
/TT0 1 Tf
0 -2.66876 TD
(10. Scattering by Large and Complex Structures)Tj
/TT1 1 Tf
0 -2.67172 TD
(Air Force Office of Scientific Research: February 1996-January 2001)Tj
0 -2.67024 TD
(Gregory A. Kriegsmann)Tj
T*
(Jonathan Luke)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(40 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
869 0 obj 1793
endobj
870 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 585.7597 Tm
(Cheryl Hile)Tj
0 -2.67024 TD
( )Tj
/TT1 1 Tf
0 -2.66876 TD
(11. Ocean Acoustics and Signal Processing for Robust Detection and Estim\
ation)Tj
/TT0 1 Tf
0 -2.67172 TD
(Office of Naval Research: June 1997-May 2000)Tj
0 -2.67024 TD
(Eliza Michalopoulou)Tj
0 -2.67023 TD
( )Tj
/TT1 1 Tf
0 -2.66878 TD
(12. Surface Tension Driven Flows)Tj
/TT0 1 Tf
0 -2.67171 TD
(National Science Foundation, Division of Mathematical Sciences: July 199\
7-June 2000)Tj
0 -2.67024 TD
(Demetrius Papageorgiou)Tj
T*
( )Tj
/TT1 1 Tf
0 -2.66876 TD
(13. CAREER Development Award: Computationally Intensive Methods for Time\
Series Analysis with )Tj
0 -2.67024 TD
(Environmental and Economic Applications)Tj
/TT0 1 Tf
0 -2.67172 TD
(National Science Foundation: July 1996-June 2000)Tj
0 -2.67024 TD
(Bonnie Ray)Tj
/TT2 1 Tf
0 -2.64313 TD
( )Tj
/TT1 1 Tf
0 -2.69588 TD
(14. Surfactant Effects in Viscous Fingering)Tj
/TT0 1 Tf
0 -2.67171 TD
(National Science Foundation: July 1997-June 2000)Tj
0 -2.67024 TD
(Michael Siegel)Tj
T*
( )Tj
/TT2 1 Tf
0 -2.64314 TD
( )Tj
0 -2.67023 TD
(PROJECTS FUNDED DURING PRESENT ACADEMIC YEAR)Tj
/TT0 1 Tf
0 -2.69736 TD
( )Tj
/TT1 1 Tf
0 -2.66876 TD
(1. Mathematical Models of Premixed Flames)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(41 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
871 0 obj 1736
endobj
872 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 570.42188 Tm
(National Science Foundation: July 1998-June 2001)Tj
0 -2.67024 TD
(John Bechtold)Tj
T*
( )Tj
/TT1 1 Tf
0 -2.66876 TD
(2. Funding for IUTAM Conferences on Segregation in Granular Flow)Tj
/TT0 1 Tf
0 -2.67172 TD
(National Science Foundation: February 1999-June 1999)Tj
0 -2.67024 TD
(Denis Blackmore)Tj
T*
(Anthony Rosato)Tj
0 -2.67023 TD
( )Tj
/TT1 1 Tf
0 -2.66878 TD
(3. Computational Electromagnetic Methods in Nonlinear Optics and Microwa\
ve Material Processing)Tj
/TT0 1 Tf
0 -2.67171 TD
(National Science Foundation: August 1998-July 2001)Tj
0 -2.67024 TD
(Cheryl Hile)Tj
T*
( )Tj
/TT1 1 Tf
0 -2.66876 TD
(4. Computation of High Gradient Phenomena in Solid Mechanics)Tj
/TT0 1 Tf
0 -2.67172 TD
(National Science Foundation, Division of Applied Mathematics: July 1998-\
June 2001)Tj
0 -2.67024 TD
(Dawn A. Lott-Crumpler)Tj
T*
( )Tj
/TT1 1 Tf
0 -2.66876 TD
(5. Scientific Computing Research Environments for the Mathematical Scien\
ces)Tj
/TT0 1 Tf
0 -2.67171 TD
(National Science Foundation: July 1998-July 2000)Tj
0 -2.67024 TD
(Jonathan Luke)Tj
T*
(Zoi-Heleni Michalopoulou)Tj
T*
(Dawn A Lott-Crumpler)Tj
T*
(Demetrius T. Papageorgiou)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(42 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
873 0 obj 1594
endobj
874 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 580.79437 Tm
(Michael Siegel)Tj
0 -2.67024 TD
( )Tj
/TT1 1 Tf
0 -2.66876 TD
(6. Numerical Modeling and Analysis of Transient Electromagnetic Wave Pro\
pagation and Scattering)Tj
/TT0 1 Tf
0 -2.67172 TD
(Air Force Office of Scientific Research: November 1998-October 2001)Tj
0 -2.67024 TD
(Peter Petropoulos)Tj
0 -2.67023 TD
( )Tj
/TT1 1 Tf
0 -2.66878 TD
(7. Shallow Water Detection)Tj
/TT0 1 Tf
0 -2.67171 TD
(Office of Naval Research: March 1999-September 2000.)Tj
0 -2.67024 TD
(Michael Porter)Tj
T*
( )Tj
/TT2 1 Tf
0 -2.64313 TD
(B. PROPOSED RESEARCH)Tj
/TT0 1 Tf
0 -2.69736 TD
( )Tj
/TT2 1 Tf
0 -2.64313 TD
(PROJECTS PROPOSED DURING PRESENT ACADEMIC YEAR)Tj
/TT0 1 Tf
0 -2.69736 TD
( )Tj
/TT1 1 Tf
0 -2.66876 TD
(1. Center for Flow Prediction and Control in Manufacturing Process)Tj
/TT0 1 Tf
0 -2.67172 TD
(New Jersey Commission on Science & Technology)Tj
6.19048 -2.67023 Td
(Nadine Aubry)Tj
0 -2.67024 TD
(John Bechtold)Tj
T*
(Denis Blackmore)Tj
T*
(Michael Booty)Tj
T*
(Bruce Buckiet)Tj
T*
(Ernest Geskin)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(43 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
875 0 obj 1393
endobj
876 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 86.42709 585.7597 Tm
(Boris Khusid)Tj
0 -2.67024 TD
(Jonathan Luke)Tj
T*
(Demetrius Papageorgiou)Tj
T*
(Anthony Rosato)Tj
T*
(Michael Siegel)Tj
0 -2.67023 TD
(Pushpendra Singh)Tj
0 -2.67024 TD
(Burt Tilley)Tj
T*
(D. Watts)Tj
T*
(Chao Zhu)Tj
/TT1 1 Tf
-6.19048 -2.66876 Td
(2. State-of-the-Art Fluid Mechanics Facilities for Advanced Processing)Tj
/TT0 1 Tf
0 -2.67172 TD
(National Science Foundation \226 Major Research Instrumention)Tj
0 -2.67024 TD
(Nadine Aubry)Tj
T*
(Denis Blackmore)Tj
T*
(Ernest Geskin)Tj
T*
(Boris Khusid)Tj
T*
(Anthony Rosato)Tj
0 -2.67023 TD
(Pushpendra Singh)Tj
0 -2.67024 TD
(Burt Tilley)Tj
T*
(Chao Zhu)Tj
/TT2 1 Tf
0 -2.64314 TD
( )Tj
/TT1 1 Tf
0 -2.69586 TD
(3. Laboratory for Electro-Hydrodynamics of Suspensions)Tj
/TT0 1 Tf
0 -2.67172 TD
(Keck Foundation)Tj
0 -2.67024 TD
(Nadine Aubry)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(44 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
877 0 obj 1555
endobj
878 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 570.42188 Tm
(Boris Khusid)Tj
0 -2.67024 TD
( )Tj
/TT1 1 Tf
0 -2.66876 TD
(4. Smart Hydrofoils for Fast Ships)Tj
/TT0 1 Tf
0 -2.67172 TD
(Naval Sea Systems Command)Tj
0 -2.67024 TD
(Nadine Aubry)Tj
T*
(Boris Khusid)Tj
/TT1 1 Tf
0 -2.66876 TD
( )Tj
0 -2.67024 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 -2.67023 TD
( )Tj
0 -2.67024 TD
(5. Virtual Environment Enterprise: Environmental Justice Metrics for Haz\
ardous Nonpoint Sources)Tj
/TT0 1 Tf
0 -2.67172 TD
(National Science Foundation)Tj
6.19048 -2.67024 Td
(Manish Bhattacharjee)Tj
0 -2.67024 TD
(Marcus Healey \(HSMRC, NJIT\))Tj
T*
(Michael Bieber \(Computer & Info. Sci.\) )Tj
T*
( )Tj
/TT1 1 Tf
-6.19048 -2.66876 Td
(6. Change Dynamics in Contemporary Urban Environments)Tj
/TT0 1 Tf
0 -2.67171 TD
(National Science Foundation, Urban Research Initiative)Tj
6.19048 -2.67024 Td
(Manish Bhattacharjee)Tj
0 -2.67024 TD
(David Hawk \(School of Architecture and School of Management\))Tj
T*
(Stanley Reisman \(Electrical Engineering\))Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(45 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
879 0 obj 1633
endobj
880 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 86.42709 580.79437 Tm
(Methi Wecharatana \(Civil and Environmental Engineering\))Tj
0 -2.67024 TD
(Rose Dios)Tj
T*
(David Rothenberg \(Humanities and Social Sciences\))Tj
T*
( )Tj
/TT1 1 Tf
-6.19048 -2.66876 Td
(7. Analysis and Simulation of Granular Flow in Vibrating Beds and Hopper\
s)Tj
/TT0 1 Tf
0 -2.67171 TD
(National Science Foundation)Tj
0 -2.67024 TD
(Denis Blackmore)Tj
T*
(Anthony Rosato)Tj
T*
( )Tj
/TT1 1 Tf
0 -2.66876 TD
(8. Neural Mechanisms for Generating Temporal Coding)Tj
/TT0 1 Tf
0 -2.67172 TD
(National Science Foundation)Tj
0 -2.67024 TD
(Amit Bose)Tj
T*
(Victoria Booth)Tj
T*
(Michael Recce)Tj
T*
( )Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 43.58607 195.15349 Tm
(9. )Tj
/TT1 1 Tf
9.62848 0 0 9.62848 56.62465 195.15349 Tm
(Mathematical Analysis of Stress Distribution and Adaptation of Aortic An\
eurysm and Stenotic Arterial )Tj
-3.09525 -2.67024 Td
(Walls Under Altered Loading Conditions)Tj
/TT0 1 Tf
0 -2.67171 TD
(National Science Foundation)Tj
0 -2.67024 TD
(Hans Chaudhry)Tj
T*
(Michael Siegel)Tj
T*
(A. Ritter \(UMDNJ\) )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(46 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
881 0 obj 1526
endobj
882 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 585.77393 Tm
(10. Identifying Long Memory Stationarity)Tj
/TT1 1 Tf
0 -2.67171 TD
(National Science Foundation)Tj
0 -2.67024 TD
(Nuno Crato)Tj
T*
( )Tj
/TT0 1 Tf
0 -2.66878 TD
(11. Asymptotic and Singular Perturbation Methods for Bifurcation Problem\
s with Applications)Tj
/TT1 1 Tf
0 -2.67171 TD
(National Science Foundation)Tj
0 -2.67024 TD
(Thomas Erneux)Tj
T*
( )Tj
T*
( )Tj
T*
( )Tj
T*
( )Tj
/TT0 1 Tf
0 -2.66876 TD
(12. Graphics and Visualization Facilities)Tj
/TT1 1 Tf
0 -2.67171 TD
(NJIT CIS Department)Tj
0 -2.67024 TD
(Vladislav V. Goldberg)Tj
T*
( )Tj
/TT0 1 Tf
0 -2.66878 TD
(13. Microwave Processing of Ceramic Materials)Tj
/TT1 1 Tf
0 -2.67171 TD
(National Science Foundation: Mathematical Sciences)Tj
0 -2.67024 TD
(Gregory A. Kriegsmann)Tj
T*
( )Tj
/TT0 1 Tf
0 -2.66876 TD
(14. The Interaction Between Fast and Slow Oscillatory Circuits)Tj
/TT1 1 Tf
0 -2.67172 TD
(The Klingenstein Fund)Tj
0 -2.67024 TD
(Farzan Nadim)Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(47 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
883 0 obj 1722
endobj
884 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 570.4361 Tm
(15. Regulation of Neuronal Oscillation by Synaptic Dynamics)Tj
/TT1 1 Tf
0 -2.67171 TD
(National Science Foundation)Tj
0 -2.67024 TD
(Farzan Nadim)Tj
T*
( )Tj
/TT0 1 Tf
0 -2.66878 TD
(16. Regulation of Neuronal Oscillation by Synaptic Dynamics)Tj
/TT1 1 Tf
0 -2.67171 TD
(NIH)Tj
0 -2.67024 TD
(Farzan Nadim)Tj
/TT2 1 Tf
0 -2.64313 TD
( )Tj
/TT0 1 Tf
0 -2.69588 TD
(17. Transition in Turbine/Compressor Flows)Tj
/TT1 1 Tf
0 -2.67172 TD
(Air Force Office of Scientific Research)Tj
0 -2.67024 TD
(Demetrius Papageorgiou)Tj
/TT2 1 Tf
0 -2.64313 TD
( )Tj
/TT0 1 Tf
0 -2.69588 TD
(18. Broadband Inversion in Shallow Water)Tj
/TT1 1 Tf
0 -2.67171 TD
(Office of Naval Research)Tj
0 -2.67024 TD
(Michael Porter)Tj
/TT0 1 Tf
0 -2.66878 TD
( )Tj
0 -2.67023 TD
(19. On Heat and Mass Transfer From A Vertically Hanging Film)Tj
/TT1 1 Tf
0 -2.67172 TD
(Petroleum Research Fund)Tj
0 -2.67024 TD
(Burt Tilley)Tj
/TT0 1 Tf
0 -2.66876 TD
( )Tj
0 -2.67024 TD
(20. State of the Art Fluid Mechanics Facilities for Advanced Processing \
and Manufacturing)Tj
/TT1 1 Tf
0 -2.67172 TD
(National Science Foundation Major Research Instrumentation Program)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(48 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
885 0 obj 1390
endobj
886 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 580.79437 Tm
(Nadine Aubry)Tj
0 -2.67024 TD
(Burt Tilley)Tj
T*
( )Tj
T*
( )Tj
T*
( )Tj
0 -2.67023 TD
( )Tj
/TT1 1 Tf
0 -2.66878 TD
(21. Measurement of Stretch by Light Reflection in Biological Soft Tissue\
)Tj
/TT0 1 Tf
0 -2.67171 TD
(National Science Foundation)Tj
0 -2.67024 TD
(N.Guzelsu)Tj
T*
(Hans Chaudhry)Tj
T*
(J.Federici)Tj
T*
(Thomas Findley )Tj
T*
( )Tj
/TT1 1 Tf
0 -2.66876 TD
(22. Center for Flow Prediction)Tj
/TT0 1 Tf
0 -2.67172 TD
(New Jersey Commission on Science and Technology R & D Excellence Program\
)Tj
0 -2.67024 TD
(Nadine Aubry)Tj
0 -2.67023 TD
(Burt Tilley)Tj
0 -2.67024 TD
( )Tj
/TT1 1 Tf
0 -2.66878 TD
(23. Free Boundary Problems in Volatile Multi-Fluid Flows)Tj
/TT0 1 Tf
0 -2.67171 TD
(National Science Foundation: July 1999-June 2002)Tj
0 -2.67024 TD
(Burt S. Tilley)Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(49 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
887 0 obj 1775
endobj
888 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 586.02069 Tm
(C. EXTERNALLY FUNDED PROJECTS -- NOT THROUGH CAMS)Tj
/TT1 1 Tf
0 -2.69734 TD
( )Tj
/TT2 1 Tf
0 -2.66878 TD
(1. Electro-Separation for On-Line Monitoring and Cleaning of In Service \
Fluids)Tj
/TT1 1 Tf
0 -2.67171 TD
(Office of Naval Research: March 1999-March 2001)Tj
0 -2.67024 TD
(Nadine Aubry)Tj
T*
(Boris Khusid)Tj
T*
( )Tj
/TT2 1 Tf
0 -2.66876 TD
(2. Study of An Air Jet for Controlling Dusty Flows)Tj
/TT1 1 Tf
0 -2.67172 TD
(Kleissler Company: January 1999-September 1999 )Tj
0 -2.67024 TD
(Nadine Aubry)Tj
T*
(Boris Khusid)Tj
T*
( )Tj
/TT2 1 Tf
0 -2.66876 TD
(3. Analysis of Granular Flow Dynamics)Tj
/TT1 1 Tf
0 -2.67171 TD
(NJCST: June 1998-August 1998)Tj
0 -2.67024 TD
(Denis Blackmore)Tj
T*
( )Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 43.58607 174.40849 Tm
(4. )Tj
/TT2 1 Tf
9.62848 0 0 9.62848 56.62465 174.40849 Tm
(Studies on thermal oxidation of polymers using a bench-scale continuous \
feed reactor under)Tj
-3.09525 -2.67024 Td
(conditions relevant to municipal incineration)Tj
/TT1 1 Tf
0 -2.67172 TD
(Procter & Gamble Company: February 1998-January 1999)Tj
0 -2.67023 TD
(Michael Booty)Tj
0 -2.67024 TD
(Joseph Bozzelli \(Chemical Engineering\))Tj
T*
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(50 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
889 0 obj 1619
endobj
890 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 570.42188 Tm
( )Tj
0 -2.67024 TD
( )Tj
T*
( )Tj
T*
( )Tj
/TT1 1 Tf
0 -2.66876 TD
(5. Pre-College Experimental Math)Tj
/TT0 1 Tf
0 -2.67172 TD
(Victoria Foundation: January 1998-December 1999)Tj
0 -2.67024 TD
(Rose Dios)Tj
0 -2.67023 TD
(Howard Kimmel, Pre-College Program)Tj
0 -2.67024 TD
(Exxon Corporation: January 1998-December 1999)Tj
T*
(Rose Dios)Tj
T*
(Howard Kimmel, Pre-College Program)Tj
T*
( )Tj
/TT1 1 Tf
0 -2.66876 TD
(6. Diabetes Data Analysis Using Generalized Mixed Models Via SAS)Tj
/TT0 1 Tf
0 -2.67172 TD
(Diabetes Association of America)Tj
0 -2.67024 TD
(Sunil Dhar)Tj
T*
( )Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 43.58607 159.07065 Tm
(5. )Tj
/TT1 1 Tf
9.62848 0 0 9.62848 56.62465 159.07065 Tm
(Travel support )Tj
/TT0 1 Tf
-3.09525 -2.67171 Td
(University of Messina: October 12-14, 1998)Tj
T*
(Vladislav V. Goldberg)Tj
T*
( )Tj
/TT1 1 Tf
0 -2.66878 TD
(8. Developing and Testing Probabilistic Forecast Models of Drought in th\
e US)Tj
/TT0 1 Tf
0 -2.67171 TD
(National Science Foundation/NOAA: August 1997-July 1999)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(51 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
891 0 obj 2017
endobj
892 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 580.79437 Tm
(\(Funded through Lamont-Doherty Earth Observatory, Columbia University\)\
)Tj
0 -2.67024 TD
(Bonnie Ray)Tj
T*
(Ed Cook)Tj
T*
(Upmanu Lall )Tj
T*
(Balaji Rajagopalan )Tj
0 -2.67023 TD
( )Tj
/TT1 1 Tf
0 -2.66878 TD
(9. TIDE: Transportation Informatics and Decision Engineering Center)Tj
/TT0 1 Tf
0 -2.67171 TD
(New Jersey Department of Transportation: January 1999-Jan. 2000)Tj
0 -2.67024 TD
(John Tavantzis)Tj
/T1_1 1 Tf
10.43086 0 0 10.43086 26.8222 348.68265 Tm
( )Tj
/TT1 1 Tf
9.62848 0 0 9.62848 26.8222 322.74234 Tm
(10. Ultrasound to Decontaminate Dredged Sediments)Tj
/TT0 1 Tf
0 -2.67172 TD
(National Science Foundation: May 1997- May 2000)Tj
0 -2.67024 TD
(Jay N. Meegoda)Tj
/T1_2 1 Tf
8.02374 0 0 8.02374 398.72232 246.94588 Tm
( )Tj
/TT2 1 Tf
9.62848 0 0 9.62848 252.08698 222.07347 Tm
(VIII. CAMS COMMITTEE AND LABORATORY ANNUAL REPORTS)Tj
-23.39568 -2.67024 Td
( )Tj
T*
( )Tj
0 -2.69734 TD
(A. READING ROOM )Tj
/TT0 1 Tf
(by Jonathan Luke)Tj
0 -2.69736 TD
( )Tj
0 -2.67024 TD
(The CAMS Reading Room houses a small collection of research texts and pr\
ovides space for research meetings and the CAMS/Math tea)Tj
(s. With generous support from )Tj
0 -1.2 TD
(CAMS members, CAMS undertook a major renovation of this essential space \
in the past year. The resulting facility is ideally suit)Tj
(ed to its purposes and fully reflects the )Tj
T*
(seriousness and pride that CAMS takes in its research activities. )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(52 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
893 0 obj 1840
endobj
894 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
1 0 0 RG
1 w 10 M 0 j 0 J []0 d
26.8222 336.20883 386.68674 257.79114 re
S
BT
/TT0 1 Tf
9.62848 0 0 9.62848 413.50894 336.20883 Tm
(On June 15, 1999, Saul Fenster, President of NJIT, dedicated the renovat\
ed )Tj
-40.16074 -1.2 Td
(reading room in a ribbon cutting ceremony attended by many senior univer\
sity officials including Provost William Van Buskirk, Se)Tj
(nior Vice President Henry Mauermeyer, and )Tj
0 -1.2 TD
(Dean John Poate. These officials congratulated CAMS on their accomplishm\
ent and cited this facility as upholding the high standa)Tj
(rds to which they believe all NJIT centers )Tj
T*
(and departments should aspire.)Tj
0 -2.67024 TD
( )Tj
8.02374 0 0 8.02374 26.8222 251.49901 Tm
( )Tj
0 -2.96428 TD
( )Tj
0 -2.96429 TD
( )Tj
0 -2.96428 TD
( )Tj
T*
( )Tj
0 -2.96429 TD
(President Fenster cuts the ribbon in a ceremony rededicating the CAMS Re\
ading Room. From left to right: )Tj
0 -2.96428 TD
(John Poate \(Dean of the College of Science and Liberal Arts\), Saul Fen\
ster \(NJIT President\), Daljit S. Ahluwalia \(CAMS Director\))Tj
(, and William Van Buskirk \(NJIT Provost\). )Tj
/TT1 1 Tf
9.62848 0 0 9.62848 26.8222 83.89412 Tm
( )Tj
/T1_1 1 Tf
8.02374 0 0 8.02374 26.8222 59.27155 Tm
( )Tj
/TT1 1 Tf
9.62848 0 0 9.62848 26.8222 34.39912 Tm
(B. CAMS COMMITTEE REPORTS)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(53 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
895 0 obj 4007
endobj
896 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 584.68878 Tm
( )Tj
0 -2.67024 TD
( )Tj
0 -2.69734 TD
(PUBLICATIONS COMMITTEE REPORT)Tj
/TT1 1 Tf
( by Peter Petropoulos)Tj
0 -2.69736 TD
(The annual duties of the Publications Committee include the production, \
advertisement, and distribution of Technical Reports pro)Tj
(duced by CAMS members, and the )Tj
0 -1.2 TD
(production of the Center's Annual Report. The efforts of the Committee a\
re aided by the Computer Systems Administrator \(R. Giouv)Tj
(anos\) and by the Departmental )Tj
T*
(Administrative Assistant \(S. Sutton\).)Tj
0 -2.67024 TD
(A major undertaking this year was the revision of the contents and appea\
rance of the CAMS Annual Report. The assistance of Ms. S)Tj
(utton was invaluable in this endeavor, as )Tj
0 -1.2 TD
(were the suggestions provided by Professors Luke and Ahluwalia.)Tj
0 -2.67024 TD
(Also, this year the Publications Committee contributed towards efforts i\
n the Mathematical & Statistical Sciences Department to )Tj
(achieve a paper-less office. Additionally, for )Tj
0 -1.2 TD
(the purpose of advertising the research done within the CAMS to a wider \
audience, the Committee created a new web-page that cont)Tj
(ains the titles and abstracts of papers )Tj
T*
(submitted in the CAMS Report Series by individual members. This web-page\
will be maintained by the Committee each year.)Tj
0 -2.67024 TD
(Towards the paper-less office, the Committee created \(aided by the Comp\
uter Committee\) a set of web-forms through which individu)Tj
(al CAMS members enter their )Tj
0 -1.2 TD
(contributions towards the CAMS Annual Report. These web-forms are userna\
me/password protected and can be accessed throughout the)Tj
( academic year so that CAMS )Tj
T*
(members can keep their entries up to date.)Tj
0 -2.67024 TD
( )Tj
T*
( )Tj
/TT0 1 Tf
0 -2.64313 TD
( )Tj
0 -2.69736 TD
(RESEARCH COMMITTEE REPORT )Tj
/TT1 1 Tf
(by Denis Blackmore)Tj
0 -2.69734 TD
(In the Fall semester of 1998, our activities were centered on helping fa\
culty members of the Department of Mathematical Sciences)Tj
( submit research proposals to external )Tj
0 -1.2 TD
(funding agencies. We proofread and critiqued proposals, gave advice on w\
here and how to submit the proposals and explained \(wher)Tj
(e necessary\) the procedure for proposal )Tj
T*
(submission through the Office of Sponsored Programs at NJIT. The proposa\
ls submitted by our faculty were of very high quality an)Tj
(d many of them were funded.)Tj
0 -2.67024 TD
(The Committee was actively involved in the Spring of 1999 in aiding our \
newer faculty members in the preparation of NJIT - SBR p)Tj
(roposals. Our efforts and especially those of )Tj
0 -1.2 TD
(the newer faculty were very successful - virtually all the proposals wer\
e funded.)Tj
0 -2.67024 TD
( )Tj
/TT0 1 Tf
0 -2.64314 TD
(C. LABORATORY ANNUAL REPORTS)Tj
0 -2.69734 TD
(Computer Committee Report for AY 1998-99)Tj
/TT1 1 Tf
( by Eliza Michalopoulou)Tj
0 -2.69736 TD
(The members of the computer committee for AY 1998-1999 were Dawn Lott-Cr\
umpler, Eliza Michalopoulou \(Chair\), Burt Tilley, and Ir)Tj
(ene Giouvanos \(the CAMS/Mathematical )Tj
0 -1.2 TD
(Sciences Systems Manager\). The student assistant administrators were Mr\
. Pandurang Kamat and Mr. Poorna Bhimavarapu.)Tj
0 -2.67024 TD
(During the academic year, the computer committee oversaw the successful \
completion of the new wiring of the 5th and 6th floors i)Tj
(n Cullimore. The new wiring gave us the )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(54 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
897 0 obj 4711
endobj
898 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 583.91882 Tm
(opportunity to connect to a faster, more reliable network. In addition, \
the committee investigated and proposed the purchase of )Tj
(a computational server and a sophisticated )Tj
0 -1.2 TD
(back-up system. The recommended equipment was purchased in the Spring of\
1999. The new, four-processor server is already availab)Tj
(le for scientific computation and the )Tj
T*
(back-up system is in the installation process.)Tj
0 -2.67024 TD
(During the Spring of 1999, new PCs were delivered to many faculty of the\
Department of Mathematical Sciences. The new computers )Tj
(were installed in faculty offices and )Tj
0 -1.2 TD
(were connected to the network. Also, new software with symbolic manipula\
tion capabilities was installed on the CAMS workstations)Tj
(. The new software complements the )Tj
T*
(scientific packages already available on our systems and is operational \
on our fastest computers. Furthermore, several departmen)Tj
(tal computers and software were upgraded, )Tj
T*
(whereas outdated equipment was retired.)Tj
0 -2.67024 TD
( )Tj
/TT1 1 Tf
T*
(Report of the Statistical Consulting Lab Committee)Tj
/TT0 1 Tf
( by Sunil Dhar)Tj
0 -2.69736 TD
(SCL computing facilities is housed in "Statistics Lab" in Cullimore 311 \
starting January 1999. The projects that earned funds ar)Tj
(e:)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 43.58607 397.33524 Tm
(1. )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 56.62465 397.33524 Tm
(Standing agreement with Rutgers School of Nursing, Newark, for need-base\
d statistical consulting )Tj
-3.09525 -2.67024 Td
(services provided by SCL to their faculty and graduate students for thei\
r research.)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 44.17021 345.91455 Tm
(a. )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 56.62465 345.91455 Tm
(Statistical Analysis of Research Data. Client: Dr. N. Eller. Service pro\
vided by Dr. Bhattacharjee and Dr. R. Dios. )Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 43.58607 334.36038 Tm
(b. )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 56.62465 334.36038 Tm
(Statistical Analysis of Data sets based upon study about recovery from c\
ancer. Client Ph.D. student Ellyn Matthews. Service prov)Tj
(ided by Dr. R. Dios.)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 43.58607 308.65005 Tm
(1. )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 56.62465 308.65005 Tm
(Three day training course on Design and Analysis of Experiment \(using J\
MP software\) for PurePac, )Tj
0 -2.67024 TD
(Pharmaceutical Company, by Dr. R. Dios and Dr. M. C. Bhattacharjee, Apri\
l 14, 21, and 29, 1999.)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 43.58607 257.22937 Tm
(2. )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 56.62465 257.22937 Tm
(Evaluation of Medical Decision-Making software MEDICALWARE to teach stud\
ents. Client Gururajan )Tj
T*
(Rao. Part of Ph.D. student's dissertation at Graduate School of Manageme\
nt, Rutgers, Newark. )Tj
T*
(Helped with questionnaire design, comparisons for two teaching methods v\
ia multivariate hypothesis )Tj
T*
(tests. Dr. S. Dhar. \(start date 3/29/99 - on going\).)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 43.58607 154.388 Tm
(3. )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 56.62465 154.388 Tm
(Comparing actual versus calculated diffusion coefficients. Clients Dr. R\
aghu, CEE, NJIT and S. )Tj
T*
(Chirputkar, Ph.D. student, CEE, NJIT. Service provided by Dr. M. C. Bhat\
tacharjee.)Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 43.58607 102.96732 Tm
(4. )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 56.62465 102.96732 Tm
(Veterans Affairs Medical Center, East Orange and the Department of Neuro\
science to analyze diabetes data. Data management and me)Tj
(rging performed for data )Tj
0 -1.2 TD
(sources from various VA centers, using generalized mixed and repeated me\
asure models via SAS, EXCEL \(Summer 1998, on going\) Serv)Tj
(ice provided by Dr. S. Dhar. )Tj
/T1_0 1 Tf
10.43086 0 0 10.43086 43.58607 79.85896 Tm
(5. )Tj
/TT0 1 Tf
9.62848 0 0 9.62848 56.62465 79.85896 Tm
(Evaluation of Medical Decision-Making software MEDICALWARE to teach stud\
ents. Part of Ph.D. )Tj
-3.09525 -2.67024 Td
(student's dissertation at UMDNJ. Statistical help provided by Professor \
Dhar.)Tj
/TT1 1 Tf
0 -2.64313 TD
(D. CAPSTONE LABORATORY)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(55 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
899 0 obj 3007
endobj
900 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 578.98895 Tm
( )Tj
/TT1 1 Tf
0 -2.69736 TD
(Advisor: Michael Siegel )Tj
0 -2.67023 TD
(Students: Elene Bouloubasis, Hiren Gajipara, Robert Gloria, Ivory Kilpat\
rick, Jessica Mahon, )Tj
0 -2.67024 TD
(Dorota Moscicka, Shirley Yap)Tj
T*
(The NSF Capstone Lab \(supported by a NSF ILI grant\) houses Silicon Gra\
phics workstations and equipment for physical experiments.)Tj
( These items are used by )Tj
0 -1.2 TD
(undergraduate students for research projects in the Capstone course in a\
pplied mathematics and statistics. )Tj
0 -2.67024 TD
(During the academic year 1998-1999, the students worked on the project `\
`Experiments and numerical simulation of fluid flow in a)Tj
( Hele-Shaw cell'', under the direction of Prof. )Tj
0 -1.2 TD
(Siegel and Teaching Assistant Michelle DeBonis. A Hele-Shaw cell consist\
s of two closely space glass plates, with a viscous flui)Tj
(d occupying the gap between the plates. )Tj
T*
(When a less viscous fluid such as air is injected into the viscous fluid\
\(say, through a hole in one of the plates\) an interesti)Tj
(ng fingering pattern develops on the interface. G. I. )Tj
T*
(Taylor realized in 1956 that the equations governing flow in a Hele-Shaw\
cell are analogous to those governing flow in porous me)Tj
(dia, and therefore the cell could serve as a )Tj
T*
(simple )Tj
0 -2.67024 TD
(apparatus to study flow instabilities arising in the oil industry.)Tj
T*
(In the class project, one group of students performed the experiment and\
recorded the results on video and digital cameras. The )Tj
(images were subsequently digitized for )Tj
0 -1.2 TD
(analysis. A second group focused)Tj
0 -2.67024 TD
(on modelling and numerical simulation of the interfacial flow. Some samp\
les of the students\222 work are shown in the accompanying )Tj
(figures. The first set of panels show images )Tj
0 -1.2 TD
(taken from an experiment in which air is injected into sweetened condens\
ed milk. The view is from the top of the cell, with the )Tj
(injection hole visible just above the origin of the )Tj
T*
(axes. The second set of panels show colored water injected into condense\
d milk. Finally, the third figure shows the result of a )Tj
(numerical simulation, which clearly captures the )Tj
T*
(salient features of the fingering phenomenon. The students\222 results w\
ere presented in a Special Applied Math Seminar on May 14.)Tj
0 -2.67024 TD
( )Tj
/TT0 1 Tf
38.45119 -2.64313 Td
(I.)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(56 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
901 0 obj 802
endobj
902 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
1 0 0 RG
1 w 10 M 0 j 0 J []0 d
172.85419 326.52304 453.74222 267.47696 re
S
BT
/TT0 1 Tf
9.62848 0 0 9.62848 395.71024 304.3876 Tm
(II.)Tj
ET
26.8222 82.5098 461.9379 204.14676 re
S
BT
/TT0 1 Tf
9.62848 0 0 9.62848 398.38693 60.37436 Tm
( )Tj
0 -2.67024 TD
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(57 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
903 0 obj 1024
endobj
904 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 398.38693 584.95367 Tm
( )Tj
-0.41701 -2.67024 Td
(III.)Tj
ET
1 0 0 RG
1 w 10 M 0 j 0 J []0 d
26.8222 232.31189 363.58984 309.20038 re
S
BT
/TT0 1 Tf
9.62848 0 0 9.62848 398.38693 210.17644 Tm
( )Tj
0 -2.67024 TD
( )Tj
/TT1 1 Tf
-38.59018 -2.69736 Td
( )Tj
0 -2.67023 TD
( )Tj
/TT0 1 Tf
29.39618 -2.64314 Td
(IX. ANNUAL RESEARCH WITHIN CAMS)Tj
-29.39618 -2.67023 Td
( )Tj
0 -2.67024 TD
(A. SELECTED RESEARCH ACTIVITIES )Tj
/TT1 1 Tf
0 -2.69736 TD
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(58 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
905 0 obj 4153
endobj
906 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 580.23273 Tm
(John Bechtold)Tj
/TT1 1 Tf
(:)Tj
0 -2.69736 TD
(In the past academic year, my research has been in the area of mathemati\
cal modeling of combustion phenomena. More specifically,)Tj
( I have derived several new models of )Tj
0 -1.2 TD
(premixed flame propagation through a variety of flow conditions. Of part\
icular interest are those conditions typical of turbulen)Tj
(t flows, such)Tj
0 -2.67024 TD
(as unsteadiness, nonuniform flow, and thermal and concentration gradient\
s. The models have been used to investigate flame-flow i)Tj
(nteractions in simple geometries to gain )Tj
0 -1.2 TD
(insights into turbulent reacting flows.)Tj
/TT0 1 Tf
0 -2.64313 TD
( )Tj
0 -2.67024 TD
(Manish C. Bhattacharjee:)Tj
/TT1 1 Tf
0 -2.69734 TD
(Basic Research: on Applied Probability and related staistical inference \
problems. Specific work includes research on modeling we)Tj
(ak notions of aging with reference to repair )Tj
0 -1.2 TD
(achemes such as replacement/ perfect repairs.)Tj
/TT0 1 Tf
0 -2.64314 TD
( )Tj
0 -2.67023 TD
(Victoria Booth:)Tj
/TT1 1 Tf
0 -2.69736 TD
(My research interests are in the mathematical and biophysical modeling o\
f the electrical firing behavior of neurons. Models are )Tj
(developed based on electrophysiological data )Tj
0 -1.2 TD
(of the neurons and on anatomical data of the neuron networks. The goal o\
f analysis of model results is to provide quantitative s)Tj
(upport of experimental hypotheses and to yield )Tj
T*
(quantitative predictions of experimentally-testable behaviors.)Tj
0 -2.67024 TD
(Currently, I am implementing parameter optimization by genetic algorithm\
to motoneuron models previously developed in collaborat)Tj
(ion with John Rinzel \(NYU\) and Ole Kiehn )Tj
0 -1.2 TD
(\(University of Copenhagen\) to investigate the dependence on dendritic \
conductances for the generation of experimentally observed)Tj
( bistable firing patterns. In a separate )Tj
T*
(collaboration with Amitabha Bose and Michael Recce \(NJIT\), I am develo\
ping network models of the CA3 region of the hippocampus t)Tj
(o investigate neural mechansims for the )Tj
T*
(generation of the phenomenon of place cell phase precession and for the \
suggested role of the region)Tj
0 -2.67024 TD
(in spatial memory. Model development is based on Michael Recce's experim\
ental recordings from the hippocampus of freely moving r)Tj
(ats. Model results are analyzed using )Tj
0 -1.2 TD
(phase plane methods and geometric singular perturbation techniques as we\
ll as numerical simulation. Predictions from model resul)Tj
(ts are experimentally tested, leading to a )Tj
T*
(close and immediate integration of theoretical and experimental techniqu\
es to understand the observed neural behavior.)Tj
/TT0 1 Tf
0 -2.64313 TD
( )Tj
0 -2.67024 TD
(Denis Blackmore:)Tj
/TT1 1 Tf
0 -2.69736 TD
(Research projects on applications of dynamical systems to automated manu\
facturing, analysis of the dynamics of vortex rings in a)Tj
(n ideal fluid, modeling and analysis of )Tj
0 -1.2 TD
(granular flows, fractal analysis of engineering surfaces, modeling and a\
nalysis of biological systems, existence and uniqueness )Tj
(theorems for partial differential equations, )Tj
T*
(harmonic mappings between manifolds, and versal deformations of infinite\
-dimensional dynamical systems.)Tj
0 -2.67024 TD
( )Tj
/TT0 1 Tf
0 -2.64313 TD
(Bruce Bukiet:)Tj
/TT1 1 Tf
0 -2.69736 TD
(During this year,I continued working on detonation dynamics with Army Re\
search Lab. This work focuses on enabling a front tracki)Tj
(ng computational code to employ discrete )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(59 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
907 0 obj 4030
endobj
908 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 585.7597 Tm
(mixture equations of state to study detonation initiation. I also contin\
ued work on mathematical biology concerning stresses in )Tj
(the heart and the NASA Student Launch )Tj
0 -1.2 TD
(program.)Tj
/TT1 1 Tf
0 -2.64313 TD
(Hans R. Chaudhry:)Tj
/TT0 1 Tf
0 -2.69736 TD
(Professor Hans Chaudhry, along with his team from NJIT \(Dr. B. Bukiet, \
Dr. M. Siegel, Dr. J. Federici and Dr. D. Lott-Crumpler\) )Tj
(and UMDNJ \(Dr. T. Findley, Dr. A. Ritter, and )Tj
0 -1.2 TD
(Dr. N. Guzelsu\), made contribution to Biomechanics by analyzing stresse\
s and strains in the cardiocvascular system and skin usin)Tj
(g the methods of non-linear elasticity. He )Tj
T*
(focused his research mostly on the role of residual stresses in heart mu\
scle and arteries and investigating the optimal patterns)Tj
( for suturing wounds in surgical procedure.)Tj
0 -2.67024 TD
( )Tj
/TT1 1 Tf
0 -2.64313 TD
(Nuno Crato:)Tj
/TT0 1 Tf
0 -2.69736 TD
(Research on the time series models for the stochastic volatility of fina\
ncial time series, namely stocks and commodity futures. )Tj
(Research on the distribution of computing costs )Tj
0 -1.2 TD
(associated with backtrack search algorithms.)Tj
/TT1 1 Tf
0 -2.64313 TD
( )Tj
0 -2.67024 TD
(Vladislav V. Goldberg:)Tj
/TT0 1 Tf
0 -2.69734 TD
(I was working on open problems of conformal differential geometry \(ligh\
tlike hypersurfaces and their applications\), projective d)Tj
(ifferential geometry \(structure of tangentially )Tj
0 -1.2 TD
(degenerate submanifolds\),)Tj
0 -2.67024 TD
(and web geometry \(classification of 4-dimensional webs\).)Tj
T*
( )Tj
/TT1 1 Tf
0 -2.64313 TD
(Gregory A. Kriegsmann:)Tj
/TT0 1 Tf
0 -2.69736 TD
(Professor Kriegsmann's research activities for the year remain focused i\
n two areas of wave propagation. In the first, he contin)Tj
(ues to develop asymptotic and numerical )Tj
0 -1.2 TD
(methods to quantitatively describe microwave heating processes that aris\
e in the sintering, joining, and fabrication of ceramics)Tj
(. In the second, he continues to develop hybrid )Tj
T*
(numerical methods for describing the scattering of electromagnetic waves\
from large resonant structures, such as jet engine duct)Tj
(s.)Tj
0 -2.67024 TD
( )Tj
/TT1 1 Tf
0 -2.64313 TD
(Dawn Lott-Crumpler:)Tj
/TT0 1 Tf
0 -2.69736 TD
(My research for the Academic Year 1998-1999 spans three topics: One focu\
s of my research has been the development and implementa)Tj
(tion of effective numerical methods )Tj
0 -1.2 TD
(for the solutions of quasilinear partial differential equations governin\
g large motions of nonlinearly elastic, elastoplastic an)Tj
(d viscoplastic materials. In particular, I utilize )Tj
T*
(Adaptive Chebyshev Pseudo-spectral methods for the computation of shear \
bands in viscoplastic materials. Secondly, I have been s)Tj
(tudying the behavior of antiplane motions )Tj
T*
(in one and two dimensions of nonlinearly elastoplastic materials. In par\
ticular, I am utilizing an efficient numerical scheme ba)Tj
(sed on finite-difference approximations and )Tj
T*
(inspired by numerical methods from gas dynamics in order to study antipl\
ane motions of elastic materials. In addition, my resear)Tj
(ch is also devoted to the study of optimal )Tj
T*
(patterns of suturing for wound closures of arbitrary configuration. For \
this project, I utilize finite element methods which are)Tj
( suited for problems with irregular boundaries, i.e. )Tj
T*
(wounds.)Tj
0 -2.67024 TD
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(60 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
909 0 obj 3515
endobj
910 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 574.47961 Tm
(Laihan Luo)Tj
/TT1 1 Tf
(:)Tj
0 -2.69734 TD
(Study the behavior of solutions for some nonlinear, dispersive wave equa\
tions with dissipation. Study the initial- and boundary-)Tj
(value problems for a generalized Korteweg-de )Tj
0 -1.20001 TD
(Vries equation. Study rigorously)Tj
0 -2.67024 TD
(on the solvability for the asymptotic linearization of acoustic wave equ\
ations and some other asymptotically integrable systems.)Tj
( Research on a moving boundary-value )Tj
0 -1.2 TD
(problem for the Black-Scholes equation in mathematical finance by the PD\
E technique.)Tj
0 -2.67024 TD
( )Tj
/TT0 1 Tf
0 -2.64313 TD
( )Tj
0 -2.67023 TD
( )Tj
0 -2.67024 TD
(Eliza Michalopoulou:)Tj
/TT1 1 Tf
0 -2.69736 TD
(My research focus during 1998/99 was on shallow water source localizatio\
n and environmental inversion. The goal was the developm)Tj
(ent of computationally efficient coherent )Tj
0 -1.2 TD
(time-domain methods. Very encouraging results in localization and bathym\
etry were obtained by applying a modified model-based ma)Tj
(tched-filter to data collected during the )Tj
T*
(SwellEX-96 experiment.)Tj
/TT0 1 Tf
0 -2.64313 TD
( )Tj
0 -2.67024 TD
(Farzan Nadim:)Tj
/TT1 1 Tf
0 -2.69736 TD
(Set up neurophysiology laboratory for experimental work on the crustacea\
n stomatogastric nervous system. Modeled a switch genera)Tj
(ted by synaptic depression in a recurrent )Tj
0 -1.2 TD
(inhibitory neuronal network. Continued the investigation of the interact\
ion between multiple neuronal network rhythms generated )Tj
(by modulatory command neurons.)Tj
0 -2.67024 TD
( )Tj
/TT0 1 Tf
0 -2.64313 TD
(Demetrius Papageorgiou:)Tj
/TT1 1 Tf
0 -2.69736 TD
(Work continued on the dynamics of bubbles in surfactant solutions and in\
particular the control of their mobility using high bul)Tj
(k concentrations of surface active agents. We )Tj
0 -1.2 TD
(have made important strides both theoretically and experimentally and ar\
e now in a position to make direct comparisons. The expe)Tj
(rimental work is carried out in the lab of )Tj
T*
(Professor Maldarelli of the Levich Institute of CCNY - I am co-mentoring\
a PhD student there. We have also completed work on a c)Tj
(lass of exact Navier-Stokes solutions and in)Tj
0 -2.67024 TD
(particular their complicated chaotic dynamics. These flows arise in many\
situations including lubricated bearings and blood flow)Tj
( in collapsible tubes. A third project is the )Tj
0 -1.2 TD
(instability and resulting topological singularities found in free surfac\
e flows when surface tension is important. We have been )Tj
(studying)Tj
0 -2.67024 TD
(surfactant effects \(with Prof. Siegel\), collapse of fluid sheets \(wit\
h Prof. Tilley and Dr. Samulyak\) and breakup of compound li)Tj
(quid jets. Work has also begun in the effects of )Tj
0 -1.2 TD
(electric fields on such flows \(with Prof. Petropoulos\).)Tj
0 -2.67024 TD
( )Tj
/TT0 1 Tf
0 -2.64313 TD
(Peter Petropoulos:)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(61 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
911 0 obj 3468
endobj
912 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 583.44482 Tm
(This year I concentrated on the analysis of the effect of numerical disp\
ersion on the performance of absorbing boundary conditio)Tj
(ns and reflectionless sponge layers used to )Tj
0 -1.2 TD
(truncate computational domains)Tj
0 -2.67024 TD
(in which Maxwell's equations are solved numerically. With Dr. Yefet we h\
ave been studying explicit fourth-order schemes in compl)Tj
(ex domains. Also, a collaborative project )Tj
0 -1.2 TD
(with Professor Papageorgiou was started in which we derived the evolutio\
n equations describing the fluid velocity and interfacia)Tj
(l deflection of a thin fluid sheet stressed by an )Tj
T*
(axial electric field. These equations constitute an initial boundary-val\
ue problem and will be solved numerically using a Chebys)Tj
(hev pseudo-spectral method.)Tj
0 -2.67024 TD
( )Tj
/TT1 1 Tf
0 -2.64313 TD
(Bonnie K. Ray:)Tj
/TT0 1 Tf
0 -2.69736 TD
(My research has concentrated on two areas: 1\) long-range dependent mode\
ls for stochastic volatility processes and 2\) methods for)Tj
( modeling nonlinear vector time series. )Tj
0 -1.2 TD
(Application areas include climatology and finance. Currently, I have six\
papers related to these topics either submitted or unde)Tj
(r)Tj
0 -2.67024 TD
(revision for journals.)Tj
T*
( )Tj
/TT1 1 Tf
0 -2.64313 TD
(Burt Tilley:)Tj
/TT0 1 Tf
0 -2.69734 TD
(Current research projects include the stability and pattern formation of\
interfacial instabilities in a thin fluid sheet \(co-wor)Tj
(kers D.T. Papageorgiou and R. V. Samulyak\), in which )Tj
0 -1.2 TD
(we derived a simple set of evolution equations describing the fluid velo\
city and interfacial deflection of a thin fluid sheet. W)Tj
(e were able to)Tj
0 -2.67024 TD
(show that for spatially periodic boundary conditions, counterpropagating\
waves appear with noncommensurate wavespeeds: solutions)Tj
( are quasi-periodic in time. We also )Tj
0 -1.2 TD
(found a critical flow amplitude above which the sheet will rupture, the \
dependence of this criterion to wavelength, and independ)Tj
(ence of similarity exponents to initial conditions )Tj
0 -1.20001 TD
(in this regime. Other activities include the solution of unsteady Stokes\
flow of a wedge on an oscillating heated plate \(collabo)Tj
(rators are S.H. Davis and S. G. Bankoff\) in which )Tj
0 -1.2 TD
(evaporation, disequilibrium, and Marangoni stresses are important. Indep\
endent work was begun on the effect of adverse shear on )Tj
(a coating fluid layer.)Tj
0 -2.67024 TD
( )Tj
/TT1 1 Tf
0 -2.64314 TD
(Amir Yefet:)Tj
/TT0 1 Tf
0 -2.69734 TD
(In this academic year Peter Petropoulos and I were working on fourth ord\
er explicit scheme for Maxwell's equations. Recently we )Tj
(wrote the first draft of a paper discussing this )Tj
0 -1.2 TD
(new scheme.)Tj
/TT1 1 Tf
0 -2.64314 TD
( )Tj
0 -2.67023 TD
(B. SELECTED RESEARCH RESULTS)Tj
0 -2.67024 TD
( )Tj
T*
(Burt S. Tilley)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(62 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
913 0 obj 799
endobj
914 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
1 0 0 RG
1 w 10 M 0 j 0 J []0 d
295.78928 444.24271 207.87206 149.75729 re
S
26.8222 387.61804 42.46849 42.46849 re
S
69.29068 387.61804 42.46849 42.46849 re
S
26.8222 47.87018 414.99905 325.59171 re
S
BT
/TT0 1 Tf
8.02374 0 0 8.02374 26.8222 26.84712 Tm
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(63 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
915 0 obj 3078
endobj
916 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
8.02374 0 0 8.02374 26.8222 579.06244 Tm
(Singularity formation in fluid flows is of interest since these events c\
an be used to enhance performance in engineering applica)Tj
(tions. Consider the flow of an incompressible, irrotational, inviscid fl\
uid sheet )Tj
0 -1.2 TD
(shown in the upper figure. We have derived a simple set of coupled parti\
al differential equations, valid for long-wavelength dis)Tj
(turbances, which describe the evolution of the varicose interface deflec\
tion )Tj
/TT1 1 Tf
(S\(x,t\))Tj
/TT0 1 Tf
( )Tj
0 -1.20148 TD
(and the axial velocity )Tj
/TT1 1 Tf
(u\(x,t\))Tj
/TT0 1 Tf
(: )Tj
/TT1 1 Tf
(S)Tj
6.41899 0 0 6.41899 131.62021 557.73956 Tm
(t)Tj
8.02374 0 0 8.02374 133.40469 559.79364 Tm
( + \(uS\))Tj
6.41899 0 0 6.41899 157.70859 557.73956 Tm
(x)Tj
8.02374 0 0 8.02374 160.91808 559.79364 Tm
( = 0)Tj
/TT0 1 Tf
(, )Tj
/TT1 1 Tf
(u)Tj
6.41899 0 0 6.41899 183.44873 557.73956 Tm
(t)Tj
8.02374 0 0 8.02374 185.2332 559.79364 Tm
( + u u)Tj
6.41899 0 0 6.41899 205.53325 557.73956 Tm
(x)Tj
8.02374 0 0 8.02374 208.74275 559.79364 Tm
( = S)Tj
6.41899 0 0 6.41899 223.24164 557.73956 Tm
(xxx)Tj
/TT0 1 Tf
8.02374 0 0 8.02374 232.87012 559.79364 Tm
(, in which the effects of inertia and surface tension are both important\
. We show that this system does not possess solitary wav)Tj
(e solutions. From the )Tj
-25.67978 -1.50252 Td
(asymptotic approach, these equations describe rupture \()Tj
/TT1 1 Tf
(S)Tj
/TT0 1 Tf
( )Tj
/T1_1 1 Tf
(\273)Tj
/TT0 1 Tf
( 0 locally\) provided that spatial gradients remain bounded. From a simi\
larity property of these equations, and some numerical in)Tj
(vestigations, we are )Tj
T*
(able to describe the general behavior for rupture. For initial velocity \
amplitudes )Tj
/TT1 1 Tf
(u)Tj
6.41899 0 0 6.41899 311.78516 536.0434 Tm
(o)Tj
/TT0 1 Tf
8.02374 0 0 8.02374 315.35413 538.09747 Tm
( sufficiently large, or for wavelengths )Tj
/TT1 1 Tf
(L)Tj
/TT0 1 Tf
( sufficiently long, the interface ruptures according to the similarity s\
cales found in Pugh & )Tj
-35.95976 -1.40834 Td
(Shelley \(1998\). Otherwise, the solutions remain bounded, and are in ge\
neral quasi-periodic in time and spatially periodic. We fu)Tj
(rther find the class of initial conditions for which travelling waves ar\
e the solutions. )Tj
0 -1.2 TD
(This work was done in collaboration with D. T. Papageorgiou and R. V. Sa\
mulyak.)Tj
/TT2 1 Tf
9.62848 0 0 9.62848 26.8222 492.27179 Tm
(Michael Siegel )Tj
ET
1 0 0 RG
1 w 10 M 0 j 0 J []0 d
26.8222 -121.50819 596.04889 596.04889 re
S
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(64 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
917 0 obj 1700
endobj
918 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
1 0 0 RG
1 w 10 M 0 j 0 J []0 d
26.8222 454.49179 596.04889 596.04889 re
S
BT
/TT0 1 Tf
9.62848 0 0 9.62848 622.87109 454.49179 Tm
( This figure illustrates tip-)Tj
-61.90479 -1.2 Td
(streaming instabilities for a nearly cusped fluid interface in an extern\
al strain flow. When a photographic film or optical fibe)Tj
(r is pulled through a liquid coating bath at high )Tj
0 -1.2 TD
(speeds, a cusped surface is created at the liquid/air interface. In figu\
re \(a\), a perturbation \(curve A\) to the steady cusped in)Tj
(terface relaxes back to the cusped profile \(curve B\). )Tj
T*
(Beyond a critical pulling speed, the same perturbation leads to a tip-st\
reaming instability \(Figure \(b\)\). The figures show that )Tj
(the steady cusped interface is unstable at high )Tj
T*
(pulling speeds, leading to degradation of the coating. Since standard nu\
merical methods have difficulty dealing with interfaces )Tj
(that are near cusping or pinching, new methods )Tj
T*
(had to be devised to compute these solutions.)Tj
0 -2.67024 TD
( )Tj
/TT1 1 Tf
0 -2.64313 TD
(Peter Petropoulos and Amir Yefet )Tj
/TT0 1 Tf
0 -2.69736 TD
( )Tj
0 -2.67024 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(65 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
919 0 obj 2047
endobj
920 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
1 0 0 RG
1 w 10 M 0 j 0 J []0 d
26.8222 304.91626 432.88052 289.08371 re
S
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 282.51984 Tm
( )Tj
0 -2.67024 TD
( )Tj
T*
(Engineers who use computational electromagnetics codes have objected to \
fourth-order accurate schemes as a replacement of the in)Tj
(dustry workhorse second-order accurate )Tj
0 -1.2 TD
(Yee scheme because of a\) difficulty in implementing absorbing boundarie\
s due to the extended spatial stencil, b\) lack of an appr)Tj
(oach to model heterogeneous dielectrics while )Tj
T*
(maintaining the order of accuracy of the scheme. The first)Tj
0 -2.67024 TD
(objection was addressed by us in JCP, v. 139, pp. 184-208 \(1998\). With\
analysis and numerical experiments \(metal box in which th)Tj
(ere are layers of dielectrics\) we have )Tj
0 -1.2 TD
(shown that the obvious treatment)Tj
0 -2.67024 TD
(\(dashed line above\) of dielectric interfaces results in a loss of at l\
east two orders of global accuracy for an explicit stagger)Tj
(ed fourth-order scheme. A new treatment restores )Tj
0 -1.2 TD
(the fourth-order convergence globally \(dash-dot line above\) and improv\
es the error level in comparison to the Yee scheme \(solid )Tj
(line above\). This work, done jointly by Amir )Tj
T*
(Yefet and Peter G. Petropoulos, addresses the second \(and final\) objec\
tion to high-order schemes, and paves the way towards full)Tj
( acceptance of fourth-order schemes for )Tj
T*
(engineering computations.)Tj
/TT1 1 Tf
0 -2.64313 TD
(Michael Booty)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(66 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
921 0 obj 5774
endobj
922 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
1 0 0 RG
1 w 10 M 0 j 0 J []0 d
26.8222 453.9285 450.76199 140.0715 re
S
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 430.62527 Tm
(Temperature disturbance T)Tj
7.70279 0 0 7.70279 142.9417 428.16037 Tm
(1)Tj
9.62848 0 0 9.62848 147.22446 430.62527 Tm
( and pressure disturbance p)Tj
7.70279 0 0 7.70279 266.56949 428.16037 Tm
(1 )Tj
9.62848 0 0 9.62848 272.99359 430.62527 Tm
(as functions of lagrangian distance )Tj
/T1_1 1 Tf
(y)Tj
/TT0 1 Tf
( and time t in the \221induction domain\222 ahead of a deflagration with\
small Mach )Tj
-25.56702 -1.50134 Td
(number in a category M=O\()Tj
/T1_1 1 Tf
(e)Tj
/TT0 1 Tf
( \). The mathematical model developed for this set-up and the interpreta\
tion of its solution are described below.)Tj
0 -2.76442 TD
(Flamelet models of combustion, also referred to as reaction-sheet models\
, are derived in the limit of small inverse activation e)Tj
(nergy )Tj
/T1_1 1 Tf
(e)Tj
/TT0 1 Tf
( )Tj
/T1_1 1 Tf
(\257)Tj
/TT0 1 Tf
( 0 to describe the dynamics of a flame )Tj
0 -1.2 TD
(in a combustible gas mixture. In this limit, effects of chemical activit\
y are small or negligible except within a spatially narr)Tj
(ow region, which is the flame or flamelet. Asymptotic )Tj
T*
(analysis of the governing \(reactive Navier-Stokes\) equations is used t\
o replace the flame by a surface of discontinuity across w)Tj
(hich a rationally derived set of jump conditions )Tj
T*
(must be satisfied by the flow field to either side. These jump condition\
s can be appended to the traditional equations of inert )Tj
(gasdynamics and reactive acoustics in much the )Tj
T*
(same way that the Rankine-Hugoniot jump conditions are appended to the E\
uler equations to describe the evolution of a shock wave)Tj
(. However, the form taken by the jump )Tj
0 -1.29417 TD
(conditions varies with the flame speed, or propagation Mach number M, an\
d how this is scaled on the inverse activation energy )Tj
/T1_1 1 Tf
(e)Tj
/TT0 1 Tf
( .)Tj
0 -2.67024 TD
(To date, flamelet models have been used to describe the slowest category\
of premixed flames, which are referred to as diffusiona)Tj
(l-thermal flames and have propagation Mach )Tj
0 -1.29417 TD
(number M to activation energy )Tj
/T1_1 1 Tf
(e)Tj
/TT0 1 Tf
( scaling M = O\()Tj
/T1_1 1 Tf
(e)Tj
/TT0 1 Tf
( exp\(-1/2T)Tj
7.70279 0 0 7.70279 276.34433 290.23862 Tm
(b)Tj
9.62848 0 0 9.62848 280.62708 292.70352 Tm
(\)\), where T)Tj
7.70279 0 0 7.70279 327.17114 290.23862 Tm
(b)Tj
/T1_1 1 Tf
0.556 -0.32001 Td
(\273)Tj
/TT0 1 Tf
0.549 0.32001 Td
( )Tj
9.62848 0 0 9.62848 337.8241 292.70352 Tm
(6 is the ratio of ambient absolute temperatures ahead and behind the fla\
me. In the work described )Tj
-32.30022 -1.68201 Td
(here, a new flamelet model was derived for the next fastest category of \
flames, for which the M to )Tj
/T1_1 1 Tf
(e)Tj
/TT0 1 Tf
( scaling is M=O\()Tj
/T1_1 1 Tf
(e)Tj
/TT0 1 Tf
( \). The model was then adapted in an attempt to describe )Tj
0 -1.2 TD
(the phenomenon of deflagration to detonation transition, whereby a low-s\
peed flame or deflagration evolves and accelerates to be)Tj
(come a high-speed wave or detonation, as )Tj
T*
(is widely observed in simple experiments and applications. )Tj
0 -2.67024 TD
(In this adaptation, the flow field immediately ahead of the flame is des\
cribed by small-amplitude disturbances \(T)Tj
7.70279 0 0 7.70279 501.48712 225.22484 Tm
(1)Tj
9.62848 0 0 9.62848 505.76987 227.68973 Tm
( , p)Tj
7.70279 0 0 7.70279 519.15344 225.22484 Tm
(1 )Tj
9.62848 0 0 9.62848 525.57758 227.68973 Tm
(, u)Tj
7.70279 0 0 7.70279 536.28448 225.22484 Tm
(1)Tj
9.62848 0 0 9.62848 540.5672 227.68973 Tm
(\) in temperature, pressure, and gas velocity about a )Tj
-53.35683 -1.40717 Td
(uniform basic state with temperature near the flame\222s critical igniti\
on temperature. Even in the absence of the flame, gas in th)Tj
(is state will ultimately develop directly into a )Tj
0 -1.29417 TD
(supersonic, weak detonation wave at some nondimensional time t )Tj
/T1_1 1 Tf
(\273)Tj
/TT0 1 Tf
( 1. Flow disturbances in this region are governed by the semilinear hype\
rbolic system of reactive )Tj
T*
(acoustics, or )Tj
/T1_1 1 Tf
(\242)Tj
/TT0 1 Tf
( induction domain\222 equations. The gas temperature is presumed to be r\
aised to a level near the flame\222s ignition temperature by a)Tj
( shock wave, which precedes )Tj
0 -1.2 TD
(the induction domain and flame, being driven by a piston that moves into\
the gas from a location immediately behind the flame.)Tj
0 -2.67024 TD
(The model reduces to an initial boundary value problem for the induction\
domain equations, which requires numerical solution. In)Tj
(itial data is given describing a quiescent state )Tj
0 -1.2 TD
(ahead of the shock wave, and an initial temperature profile in the induc\
tion domain just ahead of the flame. Boundary data is gi)Tj
(ven describing \(1\) reflection and transmission )Tj
T*
(of disturbances at the preceding shock wave, and \(2\) data on a path im\
mediately ahead of the flame, which follows from the flame)Tj
(let jump conditions and describes )Tj
T*
(transmission and reflection of disturbances across the flame and piston \
pair. )Tj
0 -2.67024 TD
( )Tj
/TT1 1 Tf
T*
(Booty )Tj
/TT0 1 Tf
(\(continued\))Tj
0 -2.69736 TD
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(67 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
923 0 obj 2659
endobj
924 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 585.7597 Tm
( )Tj
0 -2.67024 TD
( )Tj
0 -2.7644 TD
(The figures above show temperature and pressure disturbances T)Tj
7.70279 0 0 7.70279 308.31088 530.96735 Tm
(1)Tj
9.62848 0 0 9.62848 312.59363 533.43225 Tm
( \()Tj
/T1_1 1 Tf
(y)Tj
/TT0 1 Tf
( , t\) and p)Tj
7.70279 0 0 7.70279 365.76212 530.96735 Tm
(1)Tj
9.62848 0 0 9.62848 370.04486 533.43225 Tm
( \()Tj
/T1_1 1 Tf
(y)Tj
/TT0 1 Tf
( , t\) in the induction domain for a typical evolution pattern of the fl\
ow field, where )Tj
/T1_1 1 Tf
(y)Tj
/TT0 1 Tf
( is a )Tj
-35.64661 -1.50134 Td
(lagrangian distance coordinate measured from the piston. The curve of in\
tersection of the disturbance surfaces with the flame pa)Tj
(th )Tj
/T1_1 1 Tf
(y)Tj
/TT0 1 Tf
( =0 is found to have a turning point )Tj
0 -1.2 TD
(singularity at a time near t=0.005. This singularity type propagates int\
o the induction domain along the characteristic entering)Tj
( the domain from the flame path at the critical )Tj
T*
(instant. Note that the critical instant occurs at a far earlier time tha\
n would spontaneous development of a weak detonation in )Tj
(absence of the flame. The computations show )Tj
0 -1.20001 TD
(that as the critical instant is approached the flame speed remains finit\
e while its acceleration becomes unbounded, with the eve)Tj
(nt emitting a well-defined disturbance into the )Tj
0 -1.2 TD
(flow field ahead of the flame. Computations have not yet been taken beyo\
nd the critical event but a hypothesis suggested by the )Tj
(experimentally observed phenomenon of )Tj
0 -1.20001 TD
(\221galloping flames\222 is that the flame will slow after the event - b\
efore the process, qualitatively, repeats itself.)Tj
/TT1 1 Tf
0 -2.64313 TD
(Eliza Michalopoulou)Tj
/TT0 1 Tf
0 -2.69734 TD
( )Tj
0 -2.67024 TD
( )Tj
ET
1 0 0 RG
1 w 10 M 0 j 0 J []0 d
26.8222 251.12015 315.16086 115.48448 re
S
BT
/TT0 1 Tf
8.02374 0 0 8.02374 341.98306 251.12015 Tm
( Incoherent Bartlett MFP)Tj
9.62848 0 0 9.62848 26.8222 225.96213 Tm
( )Tj
T*
( )Tj
T*
( )Tj
8.02374 0 0 8.02374 26.8222 150.20448 Tm
(Matched Impulse Response Processing)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(68 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
925 0 obj 2326
endobj
926 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
1 0 0 RG
1 w 10 M 0 j 0 J []0 d
26.8222 476.2803 336.02258 117.71967 re
S
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 453.88388 Tm
(Figure 1: Ambiguity surfaces computed with the incoherent Bartlett proce\
ssor \(top\) and the matched-impulse response processor \(b)Tj
(ottom\).)Tj
0 -2.67024 TD
( )Tj
T*
( )Tj
T*
(We showed that broadband source localization for a known source sequence\
can be achieved accurately and efficiently by extractin)Tj
(g the impulse response of the ocean and )Tj
0 -1.2 TD
(cross-correlating it to replicas of the ocean impulse response. Figure 1\
shows range-depth localization results for data collect)Tj
(ed during the SWellEX-96 experiment. The top )Tj
T*
(plot illustrates the conventional, incoherent Bartlett ambiguity surface\
and the bottom plot shows the matched-impulse response )Tj
(ambiguity surface. The incoherent Bartlett )Tj
T*
(surface shows a high level of uncertainty, whereas the matched-impulse r\
esponse surface has a relatively "clean" peak at a range)Tj
( of 9.3 km and depth of 58 m \(the correct )Tj
T*
(source position is at 8.6 km in range and 56 m in depth\). For the repli\
ca calculation for both incoherent and impulse response m)Tj
(ethods, the environment was assumed to be )Tj
T*
(range independent, ignoring, thus, the bathymetric changes between sourc\
e and receiver. The incoherent Bartlett processor is aff)Tj
(ected by the error between assumed and )Tj
T*
(true bathymetry giving wrong localization results, whereas the matched-i\
mpulse response processor is robust, leading to a good s)Tj
(ource estimate with only a shift in source )Tj
T*
(range as a result of the environmental mismatch.)Tj
/TT1 1 Tf
0 -2.64313 TD
(John Bechtold )Tj
/TT0 1 Tf
8.02374 0 0 8.02374 26.8222 245.82631 Tm
( )Tj
0 -2.96428 TD
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(69 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
927 0 obj 1801
endobj
928 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
1 0 0 RG
1 w 10 M 0 j 0 J []0 d
26.8222 226.68486 403.82312 367.31512 re
S
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 204.28842 Tm
( )Tj
0 -2.67024 TD
( )Tj
T*
(The response of a premixed flame in stagnation point flow with an impose\
d oscillating strain rate has been analyzed. This config)Tj
(uration is considered a prototype for a laminar )Tj
0 -1.2 TD
(flamelet, and it is therefore applicable to turbulent flames. The sequen\
ce of figures above illustrates our theoretical predicti)Tj
(on that a region of reverse flow can temporarily )Tj
T*
(appear immediately ahead of the flame during part of each cycle. Figure \
1 shows streamlines of a flow impinging against a wall a)Tj
(t x=0. A planar flame located at x=D )Tj
T*
(separates the fresh mixture from the burned region. As the gas is burned\
it becomes less dense and streamlines are deflected, ca)Tj
(using the incoming flow to be displaced a )Tj
T*
(distance, a \(see the dashed line\). During part of each cycle, the magn\
itude of displacement can exceed the flame standoff distan)Tj
(ce as shown in Figures 3 and 4. This gives )Tj
T*
(rise to a region of reverse flow and a stagnation plane develops upstrea\
m.)Tj
/TT1 1 Tf
0 -2.64313 TD
(Gregory A. Kriegsmann )Tj
/TT0 1 Tf
0 -2.69736 TD
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(70 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
929 0 obj 2634
endobj
930 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 273.44775 586.02069 Tm
(Pattern Formation in a Microwave Heated Ceramic Slab)Tj
/TT1 1 Tf
-25.61418 -2.69734 Td
(The heating of a ceramic slab in a resonant )Tj
/TT2 1 Tf
(TE)Tj
/TT1 1 Tf
7.70279 0 0 7.70279 226.4399 557.58447 Tm
(103)Tj
9.62848 0 0 9.62848 239.28815 560.04938 Tm
( cavity is a highly nonlinear process which is described by Maxwell's eq\
uation and the heat equation. Assuming that the slab )Tj
-22.06641 -1.40717 Td
(is thin and that the Biot number is )Tj
0 -2.67023 TD
(small, we have derived a two- dimensional reaction diffusion equation wh\
ich models the heating process. The equation contains a )Tj
(nonhomogeneous source term which )Tj
0 -1.20001 TD
(corresponds to the modal structure of the cavity and a functional which \
takes into account the detuning of the cavity by the hea)Tj
(ted slab. )Tj
ET
1 0 0 RG
1 w 10 M 0 j 0 J []0 d
26.8222 274.20807 244.38005 211.59737 re
S
271.20224 274.20807 260.02634 217.55786 re
S
BT
/TT1 1 Tf
9.62848 0 0 9.62848 531.22858 274.20807 Tm
(Figure 1 shows the face of the slab for a given incident )Tj
-52.38692 -1.2 Td
(power level )Tj
/TT2 1 Tf
(P)Tj
/TT1 1 Tf
7.70279 0 0 7.70279 84.61235 260.189 Tm
(1)Tj
9.62848 0 0 9.62848 88.8951 262.6539 Tm
(; the stripe- like pattern is indicative of the underlying modal structu\
re which preferentially heats the center. Figure 2 shows)Tj
( the face of the same slab when the )Tj
-6.44679 -1.40717 Td
(power is slightly increased to )Tj
/TT2 1 Tf
(P)Tj
/TT1 1 Tf
7.70279 0 0 7.70279 158.99239 246.64014 Tm
(2)Tj
9.62848 0 0 9.62848 163.27513 249.10503 Tm
( > )Tj
/TT2 1 Tf
(P)Tj
/TT1 1 Tf
7.70279 0 0 7.70279 180.6738 246.64014 Tm
(1)Tj
9.62848 0 0 9.62848 184.95653 249.10503 Tm
(; a thermal instability has changed the stripe Into an oval spot. This h\
as been seen experimentally. Finally, if the power is in)Tj
(creased )Tj
-16.42361 -1.40717 Td
(further, then the oval spot focuses and the heating becomes much more lo\
calized as shown in Figure 3. Such a scenario would resu)Tj
(lt in a hole burned in the middle of the )Tj
0 -1.2 TD
(slab. )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(71 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
931 0 obj 695
endobj
932 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
1 0 0 RG
1 w 10 M 0 j 0 J []0 d
26.8222 377.93225 263.00659 216.06772 re
S
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 355.79681 Tm
(Demetrius Papageorgiou )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(72 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
933 0 obj 1587
endobj
934 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
1 0 0 RG
1 w 10 M 0 j 0 J []0 d
26.8222 110.45532 378.49106 483.54468 re
S
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 88.05888 Tm
(Figure 1: Flow around bubble at order one Reynolds numbers for a fixed s\
urfactant concentration and a fixed Peclet of 100. )Tj
0 -2.67024 TD
(This Figure shows numerical results for the steady flow around a rising \
gas bubble in a viscous fluid containing soluble surfact)Tj
(ants. The Navier-Stokes equations have been )Tj
0 -1.2 TD
(solved numerically and the streamlines of the steady flow are shown at d\
ifferent increasing Reynolds numbers. The presence of su)Tj
(rfactants causes a wake to form at the back )Tj
T*
(end \(the flow is from left to right in a frame fixed in the bubble\) - \
note that in the absence of surfactants there is no separa)Tj
(tion and no wakes if the bubble remains spherical. )Tj
T*
(From Wang, Papageorgiou and Maldarelli \(1999\). \(See also, )Tj
/TT1 1 Tf
(A Theoretical Study of Bubble Motion In Surfactant Solutions)Tj
/TT0 1 Tf
(, Yanping Wang, Ph.D. Thesis, Department of )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(73 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
935 0 obj 1244
endobj
936 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 585.7597 Tm
(Mathematical Sciences, New Jersey Institute of Technology \(1998\).\))Tj
/TT1 1 Tf
( )Tj
/TT2 1 Tf
0 -2.82584 TD
(Papageorgiou)Tj
/TT0 1 Tf
( \(continued\))Tj
ET
1 0 0 RG
1 w 10 M 0 j 0 J []0 d
26.8222 71.43172 379.98117 469.38852 re
S
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 49.03529 Tm
(Figure 2: Flow around bubble at a Reynolds number of 100 and a Peclet nu\
mber of 200. )Tj
/TT3 1 Tf
(k)Tj
/TT0 1 Tf
( represents the surfactant concentration. )Tj
0 -2.67172 TD
(This Figure shows numerical results for the steady flow around a rising \
gas bubble in a viscous fluid containing soluble surfact)Tj
(ants. The Navier-Stokes equations have been )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(74 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
937 0 obj 3960
endobj
938 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 585.7597 Tm
(solved numerically and the streamlines of the steady flow are shown at d\
ifferent increasing surfactant concentrations. The Reyno)Tj
(lds number is fixed at 100 and the Peclet )Tj
0 -1.2 TD
(number is 200. In the absence of surfactants a wake forms at the back en\
d \(see the smaller values of )Tj
/TT1 1 Tf
(k)Tj
/TT0 1 Tf
(\). As the surfactant concentration increases the interfacial mobility )Tj
0 -1.20148 TD
(increases and the wake is removed - the bubble remobilizes. These comput\
ations show that the wake size can be controlled by usin)Tj
(g appropriate surfactants and opens a )Tj
0 -1.2 TD
(way of mass transfer enhancement. From Wang, Papageorgiou and Maldarelli\
\(1999\). \(See also, )Tj
/TT1 1 Tf
(A Theoretical Study of Bubble Motion In Surfactant Solutions)Tj
/TT0 1 Tf
(, Yanping )Tj
0 -1.20148 TD
(Wang, PhD Thesis, Department of Mathematical Sciences, New Jersey Instit\
ute of Technology \(1998\).\) )Tj
/TT2 1 Tf
0 -2.64314 TD
(Amit Bose, Victoria Booth, and Michael Recce )Tj
29.42068 -2.67024 Td
(Spatial navigation in freely moving rats)Tj
/TT0 1 Tf
-29.42068 -2.69734 Td
(Voltage traces of neurons from a model of region CA3 of the hippocampus \
of a rat moving through the place field of the pyramidal)Tj
( cell \(P\) are shown. The traces are )Tj
0 -1.2 TD
(consistent with two experimentally verified results. First, as the rat r\
uns in a known environment, the pyramidal cell fires in )Tj
(a spatially specific location \(Heavy Bar\). Here )Tj
T*
(running velocity is constant, so the horizontal axis represents both spa\
ce and time. Second, the firing of the pyramidal cell pr)Tj
(ecesses relative to the pacemaker input T \(dotted )Tj
T*
(lines\) during passage through the place field. The model makes the nove\
l prediction that some interneurons \(I2\) may also precess)Tj
( in the place field while others \(I1\) will not. )Tj
T*
(Full details of these results are contained in Bose, Booth and Recce, CA\
MS Report 9899-9, which is to appear in the Journal of C)Tj
(omputational Neuroscience.)Tj
ET
1 0 0 RG
1 w 10 M 0 j 0 J []0 d
26.8222 398.69678 330.06207 -251.08559 re
S
BT
/T1_0 1 Tf
9.62848 0 0 9.62848 26.8222 390.42697 Tm
( )Tj
/TT2 1 Tf
0 -2.64008 TD
(Farzan Nadim)Tj
ET
26.8222 85.75963 341.98306 261.51645 re
S
BT
/TT0 1 Tf
9.62848 0 0 9.62848 368.80527 85.75963 Tm
(Rhythmic patterns generated in the central nervous system control a vari\
ety of behaviors. )Tj
-35.51787 -1.2 Td
(These include walking, swimming, ingestion and digestion of food and hea\
rtbeat. One of the important questions in this area of N)Tj
(eurosciences is the relative contribution of )Tj
0 -1.2 TD
(synaptic dynamics to the generation of rhythmic patterns. My collaborato\
rs and I are addressing this question by combining model)Tj
(ing and experiments on the crustacean )Tj
T*
(stomatogastric nervous system. Our recent mathematical modeling studies \
show that use-dependent depression, a well-known dynamic)Tj
(al property of synapses, can create a )Tj
T*
(switch between two modes of oscillations in a network involving recurren\
t inhibitory synapses \(Nadim et al., 1999; Fig. 1\). We h)Tj
(ave begun a set of experiments to test the )Tj
T*
(feasibility of such a switch mechanism in the biological network. In thi\
s set of experiments we are replacing the biological syn)Tj
(apse with an artificial synapse using a computer-)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(75 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
939 0 obj 1495
endobj
940 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 585.7597 Tm
(to-biological real-time interface \(Fig. 2\).)Tj
ET
1 0 0 RG
1 w 10 M 0 j 0 J []0 d
26.8222 297.83246 379.98117 270.45718 re
S
26.8222 157.76097 441.82126 140.0715 re
S
BT
/TT1 1 Tf
9.62848 0 0 9.62848 26.8222 135.62553 Tm
(H. R. Chaudhry,)Tj
/TT2 1 Tf
( )Tj
/TT1 1 Tf
(B. Bukiet, M. Siegel,)Tj
/TT2 1 Tf
( )Tj
/TT1 1 Tf
(T. Findley,)Tj
/TT2 1 Tf
( )Tj
/TT1 1 Tf
(A. B. Ritter,)Tj
/TT2 1 Tf
( )Tj
/TT1 1 Tf
(and)Tj
/TT2 1 Tf
( )Tj
/TT1 1 Tf
(N. Guzelsu)Tj
/TT2 1 Tf
0 -2.67024 TD
( )Tj
/TT1 1 Tf
29.61719 -2.67221 Td
(Optimal Patterns for Suturing Wounds)Tj
/TT0 1 Tf
-29.61719 -2.69736 Td
(We have developed a mathematical model for computing stresses in sutured\
human)Tj
/TT3 1 Tf
( )Tj
/TT0 1 Tf
(skin wounds.)Tj
0 -2.67171 TD
(The model uses the incremental law of elasticity and elastic)Tj
/TT3 1 Tf
( )Tj
/TT0 1 Tf
(constants valid for)Tj
/TT3 1 Tf
( in vivo)Tj
/TT0 1 Tf
( orthotropic skin.)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(76 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
941 0 obj 3029
endobj
942 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 582.76538 Tm
(We have applied the model to compute the principal stress and displaceme\
nts resulting from suturing small elliptical and circula)Tj
(r wounds)Tj
/TT1 1 Tf
( )Tj
/TT0 1 Tf
(in a large flat sheet of skin, in order )Tj
0 -1.20148 TD
(to determine)Tj
/TT1 1 Tf
( )Tj
/TT0 1 Tf
(the optimal suturing patterns.)Tj
/TT1 1 Tf
( )Tj
/TT0 1 Tf
(We have observed that the average stress index for a circular wound)Tj
/TT1 1 Tf
( )Tj
/TT0 1 Tf
(sutured toward the center is almost double that of)Tj
/TT1 1 Tf
( )Tj
/TT0 1 Tf
(a wound )Tj
T*
(sutured perpendicular to a diameter.)Tj
/TT1 1 Tf
( )Tj
/TT0 1 Tf
(Thus, the latter type of suturing pattern is preferable.)Tj
/TT1 1 Tf
( )Tj
/TT0 1 Tf
(Similarly, suturing an elliptical wound perpendicular to its major)Tj
/TT1 1 Tf
( )Tj
/TT0 1 Tf
(axis produces)Tj
0 -2.67172 TD
(a lower average stress index than a circular wound of the same area.)Tj
/TT1 1 Tf
( )Tj
/TT0 1 Tf
(Finally, we have found that the optimal ratio of semi-major)Tj
/TT1 1 Tf
( )Tj
/TT0 1 Tf
(to semi-minor axis of an)Tj
/TT1 1 Tf
( )Tj
/TT0 1 Tf
(elliptical wound is )Tj
0 -1.20148 TD
(near 3 \(for abdominal wounds\), i.e., this ratio)Tj
/TT1 1 Tf
( )Tj
/TT0 1 Tf
(produces the most uniform stresses along the wound edges,)Tj
/TT1 1 Tf
( )Tj
/TT0 1 Tf
(where wound healing is the lowest. This agrees with common )Tj
T*
(medical practice.)Tj
/TT1 1 Tf
( )Tj
/TT0 1 Tf
(Since high stresses have adverse effects on healing and blood flow, this\
)Tj
/TT1 1 Tf
( )Tj
/TT0 1 Tf
(work, depicting regions of high stresses, may be used along)Tj
/TT1 1 Tf
( )Tj
/TT0 1 Tf
(with other biological )Tj
T*
(factors to help predict regions)Tj
/TT1 1 Tf
( )Tj
/TT0 1 Tf
(of slower healing in sutured wounds.)Tj
0 -2.67172 TD
(The figure below shows the principal stresses at the precursor points, i\
.e.,)Tj
/TT1 1 Tf
( )Tj
/TT0 1 Tf
(before suturing,)Tj
/TT1 1 Tf
( )Tj
/TT0 1 Tf
(through the first quadrant of the skin sheet with an)Tj
/TT1 1 Tf
( )Tj
/TT0 1 Tf
(elliptical wound when the wound )Tj
0 -1.20148 TD
(is sutured perpendicular to the major axis.)Tj
/TT1 1 Tf
( )Tj
/TT0 1 Tf
(Note that the stress is highest at the end of the major axis.)Tj
/TT1 1 Tf
( )Tj
/TT0 1 Tf
(This work has appeared in Journal of Biomechanics, Vol. 31, 1998, pp. )Tj
T*
(653-662.)Tj
0 -2.67024 TD
( )Tj
ET
1 0 0 RG
1 w 10 M 0 j 0 J []0 d
26.8222 51.76295 466.40826 355.39417 re
S
BT
/TT2 1 Tf
9.62848 0 0 9.62848 26.8222 29.62752 Tm
(Nadine Aubry)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(77 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
943 0 obj 1628
endobj
944 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 580.05904 Tm
(Student Seminars:)Tj
0 -2.67024 TD
(Xiaoqun Ma, "A Linearization Approach to Source Localization in An Uncer\
tain Environment")Tj
T*
(Stuart Walker, "Single and Multi Mode Cavities")Tj
T*
(Fu Li, "Control of Vortex Shedding Behind A Circular Cylinder")Tj
T*
(Juan Gomez, "Burke Schumann Diffusion Flames")Tj
0 -2.67023 TD
(Raymond Addabbo, "Stability of Laminar Flames")Tj
0 -2.67024 TD
(Urmi Ghosh-Dastidar, "Correlation Loss Factors in Underwater Signal Proc\
essing")Tj
T*
(Eliana Antoniou, "Near Stoichiometric Flames")Tj
T*
(Knograt Savettaseranee, "Stability of Liquid Jets")Tj
T*
(Said Kas-Danouche, "Interfacial Hydrodynamics of Annular Films")Tj
T*
(Jerry Chen, "Analysis of Discrete Dynamical System Models for Interactin\
g Species\227Competition Model")Tj
T*
(Lyudmyla Barannyk, "Symmetry Reducation and Invariant Solutions of Equat\
ions of Mathematical )Tj
T*
(Physics")Tj
T*
(Adrienne James, "Synoptic Changes")Tj
T*
(Stephen Kunec, "The Method of Averaging: Perturbation Techniques for Dyn\
amical Systems")Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(87 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
945 0 obj 2717
endobj
946 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 579.65613 Tm
(It is well-known that at early stages an impulsively started flow past a\
circular cylinder consists of twin vortices which are i)Tj
(mages of one another through the mid-plane. While )Tj
0 -1.2 TD
(the twin vortices are stable for Reynolds numbers below the critical Rey\
nolds number value \(Rec ~ 48\), they become unstable abov)Tj
(e the critical Reynolds number. At Re > )Tj
T*
(Rec, the flow keeps its symmetric recirculating bubble structure for a s\
hort time, undergoes a symmetry breaking instability, an)Tj
(d develops into a Karman vortex street. Vortex )Tj
T*
(shedding is associated with a strong oscillating transverse force \(lift\
force\) on the body that cause flow induced vibrations an)Tj
(d can damage the body. We have concentrated )Tj
T*
(our efforts into modeling the instability and controlling vortex sheedin\
g first through the model, and second through numerical )Tj
(simulations dealing with the full Navier-Stokes )Tj
T*
(equations. )Tj
0 -2.67024 TD
(Our modeling effort is based on Foppl\222s low \(four\) dimensional, pot\
ential flow model. We have carried out the stability analysis)Tj
( of a steady bubble of vortices in the model, and )Tj
0 -1.2 TD
(found two asymmetric modes, a stable one and an unstable one. We have th\
en shown by numerical simulation how the instability pro)Tj
(perties of the model qualitatively mimic )Tj
T*
(those of the real flow. We have then controlled the instability in the m\
odel by inserting two small vorticity sources which can )Tj
(suppress vortex shedding in the real flow \(see )Tj
T*
(Figure 1\).)Tj
ET
1 0 0 RG
1 w 10 M 0 j 0 J []0 d
26.8222 80.4525 249.59549 363.58984 re
S
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 58.05606 Tm
( )Tj
0 -2.67024 TD
(Figure 1. Visualization of the flow past a circular cylinder obtained fr\
om numerical simulation dealing with the full Navier-Sto)Tj
(kes equations. At time t = 350.01, we have inserted )Tj
0 -1.2 TD
(two small sources of vorticity in the flow which, at later times, destab\
ilize the Karman vortex street and bring the flow to a s)Tj
(ymmetric steady state with no lift force on the body )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(78 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
947 0 obj 1836
endobj
948 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 585.23737 Tm
(\(from S. Tang and N. Aubry, )Tj
/TT1 1 Tf
(Journal of Fluids and Structures)Tj
/TT0 1 Tf
(, in press\).)Tj
/TT2 1 Tf
0 -2.67172 TD
(Aubry)Tj
/TT0 1 Tf
( \(continued\))Tj
0 -2.69734 TD
( )Tj
0 -2.67024 TD
( )Tj
T*
(We have also shown that similar results can be obtained through the appl\
ication of electro-magnetic forces to the flow \(Figure 2)Tj
(\). Figure 2 shows the flow past a circular )Tj
0 -1.2 TD
(cylinder obtained from numerical simulations at )Tj
0 -2.67024 TD
(Re = 200, without control, with control by means of a relatively small e\
lectro-magnetic force \(flow control I\), with control by )Tj
(means of a larger electro-magnetic force \(flow )Tj
0 -1.2 TD
(control II\). In both cases, vortex shedding is suppressed and the lift \
force on the body becomes zero. The flow-structure intera)Tj
(ction computations from modified Navier-Stokes )Tj
T*
(equations were also performed, showing that vortex shedding can be suppr\
essed and the lift can vanish even if the body is free t)Tj
(o move under the action of the flow \(Figure 3\).)Tj
/T1_0 1 Tf
0 -2.67331 TD
( )Tj
ET
1 0 0 RG
1 w 10 M 0 j 0 J []0 d
26.8222 90.97389 341.23801 287.5936 re
S
BT
/T1_0 1 Tf
9.62848 0 0 9.62848 26.8222 68.54793 Tm
( )Tj
0 -2.67024 TD
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(79 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
949 0 obj 1312
endobj
950 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
9.62848 0 0 9.62848 26.8222 585.73022 Tm
( )Tj
/TT0 1 Tf
0 -2.66718 TD
( )Tj
0 -2.67024 TD
(Figure 2. Flow visualization \(showing streamlines\) resulting from our \
numerical simulation of the flow past a fixed circular cyl)Tj
(inder subjected to external electro-magnetic forces )Tj
0 -1.2 TD
(at Re = 200: flow without control, flow subjected to a relatively small \
electro-magnetic force, flow subjected to a larger elect)Tj
(romagnetic force \(from Z. Chen\222s Ph.D. doctoral )Tj
T*
(dissertation, NJIT, in preparation\). )Tj
/T1_0 1 Tf
0 -2.67331 TD
( )Tj
/TT1 1 Tf
0 -2.66718 TD
(Aubry )Tj
/TT0 1 Tf
(\(continued\))Tj
/TT1 1 Tf
0 -2.67024 TD
( )Tj
T*
( )Tj
T*
( )Tj
T*
( )Tj
ET
1 0 0 RG
1 w 10 M 0 j 0 J []0 d
26.8222 -518.32776 745.80621 857.56537 re
S
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(80 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
951 0 obj 670
endobj
952 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
1 0 0 RG
1 w 10 M 0 j 0 J []0 d
26.8222 57.6722 745.80621 857.56537 re
S
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 35.53676 Tm
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(81 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
953 0 obj 3112
endobj
954 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 585.56537 Tm
(Figure 3. This figure is similar to Figure 2, except that flow-structure\
interactions are now simulated, allowing for the displa)Tj
(cement of the body under the influence of the flow, )Tj
0 -1.2 TD
(at every time step \(from Z. Chen\222s Ph.D. doctoral dissertation, NJIT\
, in preparation\). )Tj
/T1_1 1 Tf
8.02374 0 0 8.02374 26.8222 549.64966 Tm
( )Tj
/TT1 1 Tf
9.62848 0 0 9.62848 26.8222 524.77722 Tm
(C. COLLABORATIVE RESEARCH)Tj
/TT0 1 Tf
0 -2.69736 TD
( )Tj
/TT1 1 Tf
0 -2.64313 TD
(Denis Blackmore:)Tj
/TT2 1 Tf
0 -2.69734 TD
(Dynamics of Vortex Rings and Filaments, )Tj
/TT0 1 Tf
(D. Blackmore, L. Ting \(Courant Institute\), and O. Knio \(Courant Insti\
tute\))Tj
0 -2.67172 TD
( )Tj
/TT1 1 Tf
0 -2.64313 TD
(Amit Bose:)Tj
/TT2 1 Tf
0 -2.69736 TD
(Dynamics of Networks of Neurons)Tj
/TT0 1 Tf
(, Amitabha Bose, Nancy Kopell \(Boston University\), David Terman \(Ohio\
State University\))Tj
0 -2.67171 TD
( )Tj
/TT1 1 Tf
0 -2.64314 TD
(Dawn Lott-Crumpler:)Tj
/TT2 1 Tf
0 -2.69734 TD
(Numerical Methods for the Quasilinear Wave Equations: Antiplane Shearing\
of Nonlinearly Elastic Bodies)Tj
/TT0 1 Tf
(, Dawn A. Lott-Crumpler, Stuart S. Antman and William G. Szymczak)Tj
0 -2.67172 TD
( )Tj
/TT1 1 Tf
0 -2.64313 TD
(Laihan Luo:)Tj
/TT2 1 Tf
0 -2.69736 TD
(Long Time Behavior of Solutions of Some General Nonlinear, Dispersive Wa\
ve Equations)Tj
/TT0 1 Tf
(, with J. Bona, Department of Mathematics and Texas Institute for Comput\
ational )Tj
0 -1.20148 TD
(and Applied Mathematics, The University of Texas, Austin, TX 78712 USA a\
nd with A.S. Fokas, Department of Mathematics, Imperial )Tj
(College, 180 Queen's Gate, London, )Tj
0 -1.2 TD
(SW7 2BZ UK)Tj
/TT2 1 Tf
0 -2.67024 TD
(Initial- and Boundary-Value Problems for Some Nonlinear Wave Equations)Tj
/TT0 1 Tf
(, with J. Bona in Department of Mathematics and Texas Institute for Comp\
utational and Applied )Tj
0 -1.20148 TD
(Mathematics, The University of Texas, Austin, TX 78712)Tj
/TT2 1 Tf
0 -2.67024 TD
(Solvability for Some Asymptotically Integrable Systems)Tj
/TT0 1 Tf
(, with A.S. Fokas, Department of Mathematics, Imperial College, 180 Quee\
n's Gate, London, SW7 2BZ UK)Tj
0 -2.67171 TD
( )Tj
/TT1 1 Tf
0 -2.64314 TD
(Demetrius Papageorgiou:)Tj
/TT2 1 Tf
0 -2.69734 TD
(Dynamics of Bubbles in Surfactant Solutions)Tj
/TT0 1 Tf
(. C. Maldarelli, City College of New York.)Tj
/TT2 1 Tf
0 -2.67172 TD
(Chaotic Dynamics in Forced Navier-Stokes Flows)Tj
/TT0 1 Tf
(. P. Hall, Imperial College of Science, Technology and Medicine, London.\
)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(82 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
955 0 obj 2095
endobj
956 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 577.24353 Tm
( )Tj
/TT1 1 Tf
0 -2.64313 TD
(Peter Petropoulos:)Tj
/TT2 1 Tf
0 -2.69736 TD
(Numerical Dispersion in Numerical Solutions of Electromagnetic Integral \
Equations)Tj
/TT0 1 Tf
(, G. Pelekanos, Southern Illinois University.)Tj
/TT2 1 Tf
0 -2.67171 TD
(Comparison of Exact ABC's and Reflectionless Sponge Layers in Spherical \
Coordinates)Tj
/TT0 1 Tf
(, N. Kantartzis, University of Thessaloniki, Greece.)Tj
0 -2.67172 TD
( )Tj
/TT1 1 Tf
0 -2.64313 TD
(Bonnie Ray:)Tj
/TT2 1 Tf
0 -2.69736 TD
(Performance Analysis for Large-scale Multi-response Simulations)Tj
/TT0 1 Tf
(, Los Alamos National Laboratory, ongoing collaboration with Statistical\
Sciences Group. )Tj
/TT1 1 Tf
0 -2.64461 TD
( )Tj
0 -2.67024 TD
(D. CAMS ACADEMIC YEAR RESEARCH PROGRAM FOR STUDENTS)Tj
T*
( )Tj
0 -2.67023 TD
(Ph.D.\222s Awarded:)Tj
0 -2.67024 TD
( )Tj
6.19048 -2.67024 Td
(Zili Huang)Tj
/TT0 1 Tf
0 -2.69736 TD
(May 1999 - Advisor: Dr. Bechtold)Tj
-6.19048 -2.67024 Td
(Thesis Title, "Flame dynamics in unsteady strained flows.")Tj
/TT1 1 Tf
6.19048 -2.64313 Td
(Roman Samulyak)Tj
/TT0 1 Tf
T*
(May 1999 - Advisor: Dr. Blackmore)Tj
-6.19048 -2.67023 Td
(Thesis Title, "Dynamical systems associated with particle flow models:Th\
eory and numerical methods.")Tj
/TT1 1 Tf
6.19048 -2.64314 Td
(Yanping Wang)Tj
/TT0 1 Tf
0 -2.69734 TD
(Jan. 1999 - Advisor: Dr. Papageorgiou)Tj
-6.19048 -2.67024 Td
(Thesis Title, "Theoretical study of bubble motion and remobilization in \
surfactant solutions.")Tj
/TT1 1 Tf
0 -2.64313 TD
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(83 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
957 0 obj 2982
endobj
958 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 586.02069 Tm
(Presentations:)Tj
0 -2.67024 TD
( )Tj
T*
(John Gilchrist)Tj
/TT1 1 Tf
0 -2.80219 TD
(Invited as featured speaker at 2)Tj
7.70279 0 0 7.70279 161.69798 510.08417 Tm
(nd)Tj
9.62848 0 0 9.62848 170.26349 507.61926 Tm
( Student Conference, Florida State University, 1998. Winner of Student P\
aper Award.)Tj
/TT0 1 Tf
-14.89761 -2.64313 Td
( )Tj
0 -2.67024 TD
(Xiaoqun Ma)Tj
/TT2 1 Tf
0 -2.69588 TD
(A linearization approach to source localization in an uncertain environm\
ent. SIAM Annual Meeting, Atlanta, Georgia, May 1999.)Tj
0 -2.67024 TD
(Objective function selection for shallow water geoacoustic inversion. Co\
nference on Theoretical and Computational Acoustics, Tri)Tj
(este, Italy, May 1999.)Tj
T*
(Inpulse response estimation for inversion and source localization. Works\
hop on inverse problems, Greece, May 1999.)Tj
T*
(Matched arrival processing for efficient inversion in underwater acousti\
cs. Oceans \22199 NTS/IEEE Conference and Exhibition Seattl)Tj
(e, Washington, Sept 1999.)Tj
/TT1 1 Tf
0 -2.67171 TD
( )Tj
/TT0 1 Tf
0 -2.64314 TD
(Michele Picarelli)Tj
/TT2 1 Tf
0 -2.69586 TD
(Coherent and incoherent shallow water matched field inversion. Invited P\
aper, 136th Meeting of the Acoustical Society of America)Tj
(, Norfolk, October 1998.)Tj
/TT1 1 Tf
0 -2.67172 TD
( )Tj
/TT0 1 Tf
0 -2.64313 TD
(Roman V. Samulyak)Tj
/TT2 1 Tf
0 -2.69588 TD
(Granular flows in hoppers and in vibrating beds: Mathematical models, nu\
merical solutions and computer simulations. AIChE 1998 A)Tj
(nnual Meeting, November 15-20, Miami )Tj
0 -1.2 TD
(Beach, Florida.)Tj
0 -2.67024 TD
(Dynamical systems associated with particle flow models: Theory and numer\
ical methods. Applied Mathematics and Statistics Departm)Tj
(ent Seminar, State University of New )Tj
0 -1.2 TD
(York at Stony Brook, March 17, 1999, Stony Brook, NY.)Tj
0 -2.67024 TD
(Dynamical systems for granular flows and related problems of fluid mecha\
nics. Center for Nonlinear and Complex Systems Seminar, )Tj
(Duke University, March 30, 1999, )Tj
0 -1.2 TD
(Durham, NC. )Tj
0 -2.67024 TD
(A class of exact finite-dimensional reductions of infinite-dimensional d\
ynamical systems: theory and applications. Arizona Cente)Tj
(r for Mathematical Sciences seminar, )Tj
0 -1.2 TD
(University of Arizona, Tucson, AZ. April 19, 1999)Tj
/TT0 1 Tf
0 -2.64461 TD
( )Tj
0 -2.67024 TD
(E. CAMS SUMMER RESEARCH PROGRAM FOR STUDENTS)Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(84 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
959 0 obj 2413
endobj
960 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 574.87744 Tm
( )Tj
0 -2.67024 TD
(1998)Tj
/TT1 1 Tf
0 -2.69734 TD
(The CAMS Summer Research Program is designed to involve graduate student\
s in the research efforts of CAMS members. With the guid)Tj
(ance of faculty advisors, students )Tj
0 -1.20001 TD
(conduct summer research projects )Tj
0 -2.67023 TD
(commensurate with mathematical and scientific abilities. Students presen\
t these projects in the weekly Graduate Student Seminar.)Tj
( In 1998, the Graduate Student Seminar )Tj
0 -1.20001 TD
(was organized by Prof. Michael )Tj
0 -2.67023 TD
(Booty. Prof. Amit Bose and Prof. Petronije Milojevic assisted those stud\
ents who were preparing for qualifying exams. Students a)Tj
(lso took Math 691, "Stochastic Processes )Tj
0 -1.2 TD
(with Applications," which was offered by Prof. Sunil Dhar.)Tj
0 -2.67024 TD
(Listed below are details of the weekly seminars.)Tj
T*
(ZiLi Huang, "Flame Dynamics In Unsteady Strained Flows")Tj
T*
(Yanping Wang, "Dynamics of A Spherical Bubble Rising in Surfactant Solut\
ion")Tj
T*
(Juan Gomez, "Studies of Droplet Burning")Tj
T*
(Fu Li, "Microwave Assisted Combustions")Tj
T*
(Raymond Addabbo, "Expanding Spherical Flames")Tj
T*
(Eliana Antoniou, "Ignition of A Combustible Solid")Tj
T*
(Xiaoqun Ma, "Linearization of the Inverse Problem for Underwater Acousti\
cs")Tj
T*
(Michelle Picarelli, "Problems in Underwater Acoustics")Tj
0 -2.67023 TD
(Prof. Amit Bose, "Non-Local Equations for Microwave Heating Applications\
" )Tj
0 -2.67024 TD
(Roman Samulyak, "Finite Dimensional Reduction of Nonlinear Dynamical Sys\
tems: Theory, Numerical)Tj
T*
(Methods, and Applications to Granular Flow")Tj
T*
(Stuart Walker, "Multi-Mode Excitation of a Resonant Cavity")Tj
T*
(Urmi Ghosh-Dastidar, "Microwave Heated Ceramics: A One-Dimensional Model\
")Tj
/TT0 1 Tf
0 -2.64313 TD
( )Tj
0 -2.67024 TD
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(85 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
961 0 obj 2676
endobj
962 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91124 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/TT0 1 Tf
9.62848 0 0 9.62848 26.8222 576.29773 Tm
(1999)Tj
/TT1 1 Tf
0 -2.69734 TD
(Following the success of previous CAMS Summer Research programs, a Summe\
r program was also offered for Mathematical Sciences Ph.)Tj
(D. students in 1999. The program )Tj
0 -1.20001 TD
(started on May 17 and was of three months duration. The faculty in charg\
e of the summer program were Professors)Tj
0 -2.67024 TD
(Bechtold, Luke, and Papageorgiou. Besides the individual research projec\
ts that many of the students are working on, there were )Tj
(two seminars given each week. Of the two )Tj
0 -1.2 TD
(weekly seminars one was given by a faculty member on fundamental areas o\
f applied mathematics \(the areas covered were fluid dyna)Tj
(mics, electromagnetics, wave )Tj
T*
(propagation, optimization problems and mathematical biology\). The secon\
d weekly seminar was given by a graduate student on the s)Tj
(pecific research they are conducting. )Tj
T*
(Each graduate student made a presentation which was followed by informal\
discussions.)Tj
0 -2.67024 TD
(These seminars, besides their intrinsic instructive nature, served as a \
focal point for lively discussions between faculty and s)Tj
(tudents on current and future research resulting )Tj
0 -1.2 TD
(from the various projects.)Tj
0 -2.67023 TD
(In addition, each student completed a brief scientific report of the wor\
k accomplished during the program. )Tj
0 -2.67024 TD
( )Tj
T*
( )Tj
T*
( )Tj
T*
( )Tj
T*
(Listed below are details of the weekly seminars.)Tj
T*
(Faculty Workshops:)Tj
T*
(Michael Siegel, "Introduction to Fluid Dynamics")Tj
T*
(John Bechtold, "Introduction to Combustion")Tj
T*
(Burt Tilley, "Problems in Hydrodynamic Stability")Tj
0 -2.67023 TD
(John Tavantzis, "Mathematical Tools in Transportation Problems")Tj
0 -2.67024 TD
(Jonathan Luke and Gregory A. Kriegsmann, "Electromagnetic Waves")Tj
T*
(David Stickler and Daljit S. Ahluwalia, "Introduction to Wave Propagatio\
n")Tj
T*
(Hans R. Chaudhry, "Introduction to Bio-Mechanics")Tj
T*
(Farzan Nadim, "Introduction to Mathematical Neuroscience")Tj
T*
(Dharam Chopra, "Contributions to Orthogonal Arrays")Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(86 of 87\)11/11/2\
004 4:53:24 AM)Tj
ET
EMC
endstream
endobj
963 0 obj(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS)
endobj
964 0 obj<>
endobj
965 0 obj<>
endobj
966 0 obj<>
endobj
967 0 obj<>
endobj
968 0 obj[965 0 R]
endobj
969 0 obj(http://math.njit.edu/CAMS/Annual_Reports/cams99.html)
endobj
970 0 obj(£¢F¸´«ÐYnJP:är)
endobj
971 0 obj<>
endobj
972 0 obj<>
endobj
973 0 obj(‹D|nü¥÷ÙÝËhôžCžÏ)
endobj
974 0 obj<>
endobj
975 0 obj<>
endobj
976 0 obj<>
endobj
977 0 obj<>
endobj
978 0 obj<>stream
SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS
endstream
endobj
xref
0 979
0000000004 65535 f
0000000016 00000 n
0000000145 00000 n
0000000214 00000 n
0000000091 00001 f
0000000397 00000 n
0000000417 00000 n
0000000485 00000 n
0000000586 00000 n
0000000630 00000 n
0000000677 00000 n
0000003395 00000 n
0000003601 00000 n
0000003643 00000 n
0000003667 00000 n
0000003911 00000 n
0000003935 00000 n
0000004190 00000 n
0000004298 00000 n
0000004553 00000 n
0000004808 00000 n
0000005061 00000 n
0000005316 00000 n
0000005570 00000 n
0000005824 00000 n
0000006078 00000 n
0000006332 00000 n
0000006585 00000 n
0000006838 00000 n
0000007091 00000 n
0000007343 00000 n
0000007565 00000 n
0000007589 00000 n
0000007844 00000 n
0000007959 00000 n
0000008214 00000 n
0000008469 00000 n
0000008724 00000 n
0000008979 00000 n
0000009234 00000 n
0000009488 00000 n
0000009743 00000 n
0000009998 00000 n
0000010253 00000 n
0000010507 00000 n
0000010762 00000 n
0000011015 00000 n
0000011268 00000 n
0000011326 00000 n
0000011384 00000 n
0000011430 00000 n
0000011476 00000 n
0000011522 00000 n
0000011568 00000 n
0000011802 00000 n
0000011826 00000 n
0000011871 00000 n
0000011916 00000 n
0000011961 00000 n
0000012006 00000 n
0000012240 00000 n
0000012264 00000 n
0000012310 00000 n
0000012356 00000 n
0000012402 00000 n
0000012448 00000 n
0000012645 00000 n
0000012669 00000 n
0000012902 00000 n
0000012926 00000 n
0000012970 00000 n
0000013014 00000 n
0000013058 00000 n
0000013102 00000 n
0000013322 00000 n
0000013346 00000 n
0000013391 00000 n
0000013436 00000 n
0000013481 00000 n
0000013526 00000 n
0000013746 00000 n
0000013770 00000 n
0000013990 00000 n
0000014014 00000 n
0000014236 00000 n
0000014331 00000 n
0000014426 00000 n
0000014516 00000 n
0000015699 00000 n
0000015881 00000 n
0000017062 00000 n
0000000092 00001 f
0000000105 00001 f
0000017238 00000 n
0000017262 00000 n
0000017308 00000 n
0000017354 00000 n
0000017400 00000 n
0000017446 00000 n
0000017681 00000 n
0000018865 00000 n
0000019046 00000 n
0000020225 00000 n
0000020400 00000 n
0000021575 00000 n
0000000106 00001 f
0000000117 00001 f
0000021744 00000 n
0000021769 00000 n
0000021816 00000 n
0000021863 00000 n
0000021910 00000 n
0000021957 00000 n
0000022004 00000 n
0000022051 00000 n
0000022098 00000 n
0000022145 00000 n
0000000118 00001 f
0000000123 00001 f
0000022368 00000 n
0000022393 00000 n
0000022616 00000 n
0000022706 00000 n
0000000124 00001 f
0000000127 00001 f
0000022798 00000 n
0000022823 00000 n
0000000128 00001 f
0000000132 00001 f
0000023046 00000 n
0000023071 00000 n
0000023294 00000 n
0000000133 00001 f
0000000138 00001 f
0000023393 00000 n
0000023418 00000 n
0000023641 00000 n
0000024823 00000 n
0000000139 00001 f
0000000142 00001 f
0000024999 00000 n
0000025024 00000 n
0000000143 00001 f
0000000146 00001 f
0000025247 00000 n
0000025272 00000 n
0000000147 00001 f
0000000150 00001 f
0000025495 00000 n
0000025520 00000 n
0000000151 00001 f
0000000159 00001 f
0000025743 00000 n
0000025768 00000 n
0000025816 00000 n
0000025864 00000 n
0000025912 00000 n
0000025960 00000 n
0000026183 00000 n
0000000160 00001 f
0000000165 00001 f
0000026284 00000 n
0000026309 00000 n
0000026357 00000 n
0000026405 00000 n
0000000166 00001 f
0000000169 00001 f
0000026628 00000 n
0000026653 00000 n
0000000170 00001 f
0000000173 00001 f
0000026876 00000 n
0000026901 00000 n
0000000174 00001 f
0000000177 00001 f
0000027124 00000 n
0000027149 00000 n
0000000178 00001 f
0000000182 00001 f
0000027372 00000 n
0000027397 00000 n
0000027620 00000 n
0000000183 00001 f
0000000186 00001 f
0000027721 00000 n
0000027746 00000 n
0000000187 00001 f
0000000190 00001 f
0000027969 00000 n
0000027994 00000 n
0000000191 00001 f
0000000194 00001 f
0000028217 00000 n
0000028242 00000 n
0000000195 00001 f
0000000198 00001 f
0000028465 00000 n
0000028490 00000 n
0000000199 00001 f
0000000223 00001 f
0000028713 00000 n
0000028738 00000 n
0000028786 00000 n
0000028834 00000 n
0000028882 00000 n
0000028930 00000 n
0000028978 00000 n
0000029026 00000 n
0000029074 00000 n
0000029122 00000 n
0000029169 00000 n
0000029216 00000 n
0000029263 00000 n
0000029310 00000 n
0000029358 00000 n
0000029406 00000 n
0000029454 00000 n
0000029502 00000 n
0000029550 00000 n
0000029598 00000 n
0000029646 00000 n
0000029694 00000 n
0000029917 00000 n
0000000224 00001 f
0000000234 00001 f
0000030018 00000 n
0000030066 00000 n
0000030114 00000 n
0000030162 00000 n
0000030210 00000 n
0000030235 00000 n
0000030283 00000 n
0000030331 00000 n
0000030379 00000 n
0000000257 00001 f
0000032861 00000 n
0000032909 00000 n
0000032957 00000 n
0000033005 00000 n
0000033053 00000 n
0000033101 00000 n
0000033148 00000 n
0000033195 00000 n
0000033242 00000 n
0000033289 00000 n
0000033337 00000 n
0000033385 00000 n
0000033433 00000 n
0000033481 00000 n
0000033529 00000 n
0000033577 00000 n
0000033625 00000 n
0000033673 00000 n
0000033721 00000 n
0000033769 00000 n
0000033817 00000 n
0000033865 00000 n
0000000258 00001 f
0000000268 00001 f
0000034099 00000 n
0000034124 00000 n
0000034171 00000 n
0000034218 00000 n
0000034265 00000 n
0000034312 00000 n
0000034359 00000 n
0000034406 00000 n
0000034453 00000 n
0000000269 00001 f
0000000272 00001 f
0000034664 00000 n
0000034689 00000 n
0000000273 00001 f
0000000280 00001 f
0000034911 00000 n
0000034936 00000 n
0000034984 00000 n
0000035032 00000 n
0000035080 00000 n
0000035128 00000 n
0000000281 00001 f
0000000285 00001 f
0000035327 00000 n
0000035352 00000 n
0000035539 00000 n
0000000286 00001 f
0000000289 00001 f
0000035640 00000 n
0000035665 00000 n
0000000290 00001 f
0000000293 00001 f
0000035877 00000 n
0000035902 00000 n
0000000294 00001 f
0000000305 00001 f
0000036139 00000 n
0000036164 00000 n
0000036212 00000 n
0000036260 00000 n
0000036308 00000 n
0000036356 00000 n
0000036404 00000 n
0000036452 00000 n
0000036500 00000 n
0000036548 00000 n
0000000306 00001 f
0000000309 00001 f
0000036759 00000 n
0000036784 00000 n
0000000310 00001 f
0000000316 00001 f
0000037007 00000 n
0000037032 00000 n
0000037255 00000 n
0000037356 00000 n
0000038504 00000 n
0000000317 00001 f
0000000320 00001 f
0000038671 00000 n
0000038696 00000 n
0000000321 00001 f
0000000324 00001 f
0000038907 00000 n
0000038932 00000 n
0000000325 00001 f
0000000330 00001 f
0000039155 00000 n
0000039180 00000 n
0000039228 00000 n
0000039276 00000 n
0000000342 00001 f
0000041612 00000 n
0000041660 00000 n
0000041708 00000 n
0000041756 00000 n
0000041804 00000 n
0000041852 00000 n
0000041899 00000 n
0000041947 00000 n
0000041993 00000 n
0000042040 00000 n
0000042087 00000 n
0000000343 00001 f
0000000364 00001 f
0000042310 00000 n
0000042335 00000 n
0000042383 00000 n
0000042431 00000 n
0000042479 00000 n
0000042526 00000 n
0000042574 00000 n
0000042622 00000 n
0000042670 00000 n
0000042718 00000 n
0000042766 00000 n
0000042814 00000 n
0000042862 00000 n
0000042910 00000 n
0000042958 00000 n
0000043006 00000 n
0000043054 00000 n
0000043102 00000 n
0000043149 00000 n
0000043197 00000 n
0000000365 00001 f
0000000370 00001 f
0000043408 00000 n
0000043433 00000 n
0000043481 00000 n
0000043692 00000 n
0000000371 00001 f
0000000375 00001 f
0000043793 00000 n
0000043818 00000 n
0000044029 00000 n
0000000376 00001 f
0000000382 00001 f
0000044096 00000 n
0000044121 00000 n
0000044169 00000 n
0000044217 00000 n
0000044265 00000 n
0000000383 00001 f
0000000394 00001 f
0000044488 00000 n
0000044535 00000 n
0000044582 00000 n
0000046994 00000 n
0000049526 00000 n
0000049573 00000 n
0000049598 00000 n
0000049646 00000 n
0000049694 00000 n
0000049742 00000 n
0000000395 00001 f
0000000405 00001 f
0000049953 00000 n
0000049978 00000 n
0000050025 00000 n
0000050072 00000 n
0000050119 00000 n
0000050166 00000 n
0000050213 00000 n
0000050260 00000 n
0000050307 00000 n
0000000406 00001 f
0000000410 00001 f
0000050530 00000 n
0000050555 00000 n
0000050766 00000 n
0000000411 00001 f
0000000416 00001 f
0000050867 00000 n
0000050892 00000 n
0000051141 00000 n
0000051241 00000 n
0000000417 00001 f
0000000430 00001 f
0000051339 00000 n
0000051364 00000 n
0000051412 00000 n
0000051460 00000 n
0000051508 00000 n
0000051556 00000 n
0000051604 00000 n
0000051652 00000 n
0000051700 00000 n
0000051748 00000 n
0000051796 00000 n
0000051844 00000 n
0000000431 00001 f
0000000438 00001 f
0000052068 00000 n
0000052093 00000 n
0000052140 00000 n
0000052187 00000 n
0000052234 00000 n
0000052281 00000 n
0000000439 00001 f
0000000446 00001 f
0000052492 00000 n
0000052517 00000 n
0000052563 00000 n
0000052609 00000 n
0000052655 00000 n
0000052701 00000 n
0000000447 00001 f
0000000453 00001 f
0000052912 00000 n
0000052937 00000 n
0000052984 00000 n
0000053031 00000 n
0000053242 00000 n
0000000454 00001 f
0000000457 00001 f
0000053343 00000 n
0000053368 00000 n
0000000458 00001 f
0000000461 00001 f
0000053567 00000 n
0000053592 00000 n
0000000462 00001 f
0000000473 00001 f
0000053803 00000 n
0000053828 00000 n
0000053876 00000 n
0000053924 00000 n
0000053972 00000 n
0000054020 00000 n
0000054067 00000 n
0000054114 00000 n
0000054161 00000 n
0000054208 00000 n
0000000474 00001 f
0000000477 00001 f
0000054419 00000 n
0000054444 00000 n
0000000478 00001 f
0000000482 00001 f
0000054655 00000 n
0000054680 00000 n
0000054891 00000 n
0000000483 00001 f
0000000486 00001 f
0000054992 00000 n
0000055017 00000 n
0000000487 00001 f
0000000494 00001 f
0000055228 00000 n
0000055253 00000 n
0000055301 00000 n
0000055349 00000 n
0000055397 00000 n
0000055445 00000 n
0000000495 00001 f
0000000498 00001 f
0000055644 00000 n
0000055669 00000 n
0000000499 00001 f
0000000502 00001 f
0000055905 00000 n
0000055930 00000 n
0000000503 00001 f
0000000509 00001 f
0000056141 00000 n
0000056166 00000 n
0000056537 00000 n
0000057183 00000 n
0000057394 00000 n
0000000510 00001 f
0000000513 00001 f
0000057495 00000 n
0000057520 00000 n
0000000514 00001 f
0000000517 00001 f
0000057744 00000 n
0000057769 00000 n
0000000518 00001 f
0000000521 00001 f
0000057993 00000 n
0000058018 00000 n
0000000522 00001 f
0000000525 00001 f
0000058229 00000 n
0000058254 00000 n
0000000526 00001 f
0000000530 00001 f
0000058465 00000 n
0000058490 00000 n
0000058713 00000 n
0000000531 00001 f
0000000534 00001 f
0000058814 00000 n
0000058839 00000 n
0000000535 00001 f
0000000538 00001 f
0000059038 00000 n
0000059063 00000 n
0000000539 00001 f
0000000543 00001 f
0000059274 00000 n
0000059299 00000 n
0000059534 00000 n
0000000544 00001 f
0000000547 00001 f
0000059595 00000 n
0000059620 00000 n
0000000548 00001 f
0000000551 00001 f
0000059843 00000 n
0000059868 00000 n
0000000552 00001 f
0000000553 00001 f
0000000554 00001 f
0000000557 00001 f
0000059915 00000 n
0000060149 00000 n
0000000558 00001 f
0000000560 00001 f
0000060250 00000 n
0000000561 00001 f
0000000562 00001 f
0000000564 00001 f
0000060275 00000 n
0000000565 00001 f
0000000566 00001 f
0000000567 00001 f
0000000568 00001 f
0000000569 00001 f
0000000570 00001 f
0000000571 00001 f
0000000572 00001 f
0000000573 00001 f
0000000574 00001 f
0000000575 00001 f
0000000576 00001 f
0000000577 00001 f
0000000580 00001 f
0000060323 00000 n
0000060546 00000 n
0000000581 00001 f
0000000582 00001 f
0000000584 00001 f
0000060662 00000 n
0000000585 00001 f
0000000586 00001 f
0000000587 00001 f
0000000588 00001 f
0000000589 00001 f
0000000590 00001 f
0000000591 00001 f
0000000592 00001 f
0000000593 00001 f
0000000594 00001 f
0000000596 00001 f
0000060687 00000 n
0000000597 00001 f
0000000598 00001 f
0000000600 00001 f
0000060886 00000 n
0000000601 00001 f
0000000602 00001 f
0000000603 00001 f
0000000604 00001 f
0000000605 00001 f
0000000606 00001 f
0000000607 00001 f
0000000609 00001 f
0000060911 00000 n
0000000610 00001 f
0000000612 00001 f
0000061134 00000 n
0000000613 00001 f
0000000614 00001 f
0000000615 00001 f
0000000616 00001 f
0000000617 00001 f
0000000618 00001 f
0000000619 00001 f
0000000620 00001 f
0000000621 00001 f
0000000622 00001 f
0000000623 00001 f
0000000624 00001 f
0000000625 00001 f
0000000626 00001 f
0000000627 00001 f
0000000628 00001 f
0000000629 00001 f
0000000630 00001 f
0000000631 00001 f
0000000632 00001 f
0000000633 00001 f
0000000635 00001 f
0000061159 00000 n
0000000636 00001 f
0000000638 00001 f
0000061370 00000 n
0000000639 00001 f
0000000640 00001 f
0000000641 00001 f
0000000642 00001 f
0000000643 00001 f
0000000644 00001 f
0000000645 00001 f
0000000646 00001 f
0000000647 00001 f
0000000648 00001 f
0000000649 00001 f
0000000650 00001 f
0000000651 00001 f
0000000652 00001 f
0000000653 00001 f
0000000654 00001 f
0000000655 00001 f
0000000656 00001 f
0000000657 00001 f
0000000660 00001 f
0000061395 00000 n
0000061594 00000 n
0000000661 00001 f
0000000663 00001 f
0000061695 00000 n
0000000664 00001 f
0000000665 00001 f
0000000666 00001 f
0000000667 00001 f
0000000669 00001 f
0000061720 00000 n
0000000670 00001 f
0000000671 00001 f
0000000673 00001 f
0000061956 00000 n
0000000674 00001 f
0000000675 00001 f
0000000676 00001 f
0000000677 00001 f
0000000681 00001 f
0000061981 00000 n
0000062029 00000 n
0000062077 00000 n
0000000682 00001 f
0000000691 00001 f
0000062300 00000 n
0000062325 00000 n
0000062373 00000 n
0000062421 00000 n
0000062469 00000 n
0000062517 00000 n
0000062740 00000 n
0000063913 00000 n
0000000692 00001 f
0000000701 00001 f
0000064085 00000 n
0000064110 00000 n
0000064158 00000 n
0000064206 00000 n
0000064254 00000 n
0000064302 00000 n
0000064350 00000 n
0000064398 00000 n
0000000706 00001 f
0000064446 00000 n
0000064494 00000 n
0000064542 00000 n
0000064590 00000 n
0000000711 00001 f
0000064638 00000 n
0000064686 00000 n
0000064734 00000 n
0000064782 00000 n
0000000716 00001 f
0000064830 00000 n
0000064878 00000 n
0000064926 00000 n
0000064974 00000 n
0000000725 00001 f
0000065022 00000 n
0000065069 00000 n
0000065117 00000 n
0000065165 00000 n
0000065213 00000 n
0000065261 00000 n
0000065309 00000 n
0000065357 00000 n
0000000734 00001 f
0000065405 00000 n
0000065453 00000 n
0000065501 00000 n
0000065549 00000 n
0000065597 00000 n
0000065645 00000 n
0000065692 00000 n
0000065739 00000 n
0000000739 00001 f
0000065786 00000 n
0000065834 00000 n
0000065882 00000 n
0000065930 00000 n
0000000744 00001 f
0000065978 00000 n
0000066025 00000 n
0000066073 00000 n
0000066121 00000 n
0000000749 00001 f
0000066169 00000 n
0000066217 00000 n
0000066264 00000 n
0000066311 00000 n
0000000755 00001 f
0000066358 00000 n
0000066405 00000 n
0000066452 00000 n
0000066499 00000 n
0000066546 00000 n
0000000756 00001 f
0000000762 00001 f
0000066757 00000 n
0000066782 00000 n
0000066830 00000 n
0000066878 00000 n
0000067089 00000 n
0000000763 00001 f
0000000768 00001 f
0000067206 00000 n
0000067254 00000 n
0000067302 00000 n
0000067327 00000 n
0000000769 00001 f
0000000771 00001 f
0000067526 00000 n
0000000772 00001 f
0000000773 00001 f
0000000774 00001 f
0000000775 00001 f
0000000776 00001 f
0000000777 00001 f
0000000778 00001 f
0000000779 00001 f
0000000780 00001 f
0000000781 00001 f
0000000782 00001 f
0000000783 00001 f
0000000784 00001 f
0000000785 00001 f
0000000786 00001 f
0000000787 00001 f
0000000788 00001 f
0000000000 00001 f
0000067551 00000 n
0000067573 00000 n
0000068667 00000 n
0000068689 00000 n
0000072333 00000 n
0000072355 00000 n
0000077843 00000 n
0000077865 00000 n
0000081462 00000 n
0000081484 00000 n
0000084589 00000 n
0000084611 00000 n
0000086149 00000 n
0000086171 00000 n
0000088633 00000 n
0000088655 00000 n
0000091459 00000 n
0000091481 00000 n
0000094308 00000 n
0000094330 00000 n
0000097470 00000 n
0000097492 00000 n
0000100348 00000 n
0000100370 00000 n
0000103027 00000 n
0000103049 00000 n
0000106103 00000 n
0000106125 00000 n
0000109443 00000 n
0000109465 00000 n
0000113125 00000 n
0000113147 00000 n
0000116535 00000 n
0000116557 00000 n
0000119423 00000 n
0000119445 00000 n
0000122629 00000 n
0000122651 00000 n
0000125854 00000 n
0000125876 00000 n
0000129236 00000 n
0000129258 00000 n
0000131741 00000 n
0000131763 00000 n
0000134472 00000 n
0000134494 00000 n
0000136747 00000 n
0000136769 00000 n
0000139383 00000 n
0000139405 00000 n
0000141681 00000 n
0000141703 00000 n
0000144210 00000 n
0000144232 00000 n
0000146816 00000 n
0000146838 00000 n
0000149230 00000 n
0000149252 00000 n
0000151982 00000 n
0000152004 00000 n
0000155265 00000 n
0000155287 00000 n
0000158534 00000 n
0000158556 00000 n
0000161678 00000 n
0000161700 00000 n
0000163888 00000 n
0000163910 00000 n
0000165888 00000 n
0000165910 00000 n
0000167140 00000 n
0000167161 00000 n
0000167827 00000 n
0000167849 00000 n
0000170454 00000 n
0000170476 00000 n
0000173719 00000 n
0000173741 00000 n
0000175469 00000 n
0000175491 00000 n
0000177371 00000 n
0000177393 00000 n
0000179241 00000 n
0000179263 00000 n
0000181054 00000 n
0000181076 00000 n
0000182725 00000 n
0000182747 00000 n
0000184195 00000 n
0000184217 00000 n
0000185827 00000 n
0000185849 00000 n
0000187537 00000 n
0000187559 00000 n
0000189140 00000 n
0000189162 00000 n
0000190939 00000 n
0000190961 00000 n
0000192406 00000 n
0000192428 00000 n
0000194258 00000 n
0000194280 00000 n
0000195954 00000 n
0000195976 00000 n
0000198048 00000 n
0000198070 00000 n
0000199965 00000 n
0000199987 00000 n
0000204049 00000 n
0000204071 00000 n
0000208837 00000 n
0000208859 00000 n
0000211921 00000 n
0000211942 00000 n
0000212799 00000 n
0000212821 00000 n
0000213900 00000 n
0000213922 00000 n
0000218130 00000 n
0000218152 00000 n
0000222237 00000 n
0000222259 00000 n
0000225829 00000 n
0000225851 00000 n
0000229374 00000 n
0000229395 00000 n
0000230249 00000 n
0000230271 00000 n
0000233404 00000 n
0000233426 00000 n
0000235181 00000 n
0000235203 00000 n
0000237305 00000 n
0000237327 00000 n
0000243156 00000 n
0000243178 00000 n
0000245892 00000 n
0000245914 00000 n
0000248295 00000 n
0000248317 00000 n
0000250173 00000 n
0000250195 00000 n
0000252884 00000 n
0000252905 00000 n
0000253655 00000 n
0000253677 00000 n
0000255319 00000 n
0000255341 00000 n
0000256640 00000 n
0000256662 00000 n
0000260677 00000 n
0000260699 00000 n
0000262249 00000 n
0000262271 00000 n
0000265355 00000 n
0000265377 00000 n
0000267060 00000 n
0000267082 00000 n
0000269854 00000 n
0000269876 00000 n
0000271767 00000 n
0000271789 00000 n
0000273156 00000 n
0000273177 00000 n
0000273902 00000 n
0000273924 00000 n
0000277091 00000 n
0000277113 00000 n
0000279263 00000 n
0000279285 00000 n
0000282322 00000 n
0000282344 00000 n
0000284812 00000 n
0000284834 00000 n
0000287565 00000 n
0000287641 00000 n
0000287679 00000 n
0000287768 00000 n
0000287799 00000 n
0000287909 00000 n
0000287935 00000 n
0000288006 00000 n
0000288041 00000 n
0000288834 00000 n
0000288887 00000 n
0000288922 00000 n
0000288966 00000 n
0000289010 00000 n
0000289095 00000 n
0000289234 00000 n
trailer
<]>>
startxref
292591
%%EOF
1 0 obj<>
endobj
3 0 obj<>
endobj
11 0 obj<>/ProcSet[/PDF/Text]>>/StructParents 0>>
endobj
979 0 obj null
endobj
980 0 obj 1038
endobj
981 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIUALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
982 0 obj 1037
endobj
983 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIALS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
984 0 obj 1036
endobj
985 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVILS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
986 0 obj 1035
endobj
987 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIS)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
988 0 obj 1034
endobj
989 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
990 0 obj 1033
endobj
991 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDII)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
992 0 obj 1032
endobj
993 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
994 0 obj 1031
endobj
995 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
996 0 obj 1030
endobj
997 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY II)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
998 0 obj 1029
endobj
999 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY I)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1000 0 obj 1028
endobj
1001 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BYI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1002 0 obj 1027
endobj
1003 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1004 0 obj 1026
endobj
1005 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED I)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1006 0 obj 1025
endobj
1007 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTEDI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1008 0 obj 1024
endobj
1009 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTEI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1010 0 obj 1023
endobj
1011 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITTI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1012 0 obj 1022
endobj
1013 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMITI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1014 0 obj 1021
endobj
1015 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMII)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1016 0 obj 1020
endobj
1017 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBMI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1018 0 obj 1019
endobj
1019 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUBI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1020 0 obj 1018
endobj
1021 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SUI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1022 0 obj 1017
endobj
1023 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH ACTIVITIES SI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1024 0 obj 1016
endobj
1025 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH ACTIVITIES I)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1026 0 obj 1015
endobj
1027 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH ACTIVITIESI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1028 0 obj 1014
endobj
1029 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH ACTIVITIEI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1030 0 obj 1013
endobj
1031 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH ACTIVITII)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1032 0 obj 1012
endobj
1033 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH ACTIVITI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1034 0 obj 1011
endobj
1035 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH ACTIVII)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1036 0 obj 1010
endobj
1037 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH ACTIVI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1038 0 obj 1009
endobj
1039 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH ACTII)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1040 0 obj 1008
endobj
1041 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH ACTI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1042 0 obj 1007
endobj
1043 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH ACI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1044 0 obj 1006
endobj
1045 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH AI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1046 0 obj 1005
endobj
1047 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCH I)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1048 0 obj 1004
endobj
1049 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCHI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1050 0 obj 1003
endobj
1051 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARCI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1052 0 obj 1002
endobj
1053 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEARI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1054 0 obj 1001
endobj
1055 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEAI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1056 0 obj 1000
endobj
1057 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESEI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1058 0 obj 999
endobj
1059 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RESI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1060 0 obj 998
endobj
1061 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF REI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1062 0 obj 997
endobj
1063 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF RI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1064 0 obj 996
endobj
1065 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OF I)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1066 0 obj 995
endobj
1067 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OFI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1068 0 obj 994
endobj
1069 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES OI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1070 0 obj 993
endobj
1071 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIES I)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1072 0 obj 992
endobj
1073 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIESI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1074 0 obj 991
endobj
1075 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARIEI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1076 0 obj 990
endobj
1077 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARII)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1078 0 obj 989
endobj
1079 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMARI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1080 0 obj 988
endobj
1081 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMAI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1082 0 obj 987
endobj
1083 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMMI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1084 0 obj 986
endobj
1085 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUMI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1086 0 obj 985
endobj
1087 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SUI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1088 0 obj 984
endobj
1089 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(SI)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1090 0 obj 983
endobj
1091 0 obj<>stream
/Artifact <>BDC
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 601.91125 Tm
(I)Tj
ET
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
BT
/T1_0 1 Tf
10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
BT
/T1_0 1 Tf
6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1092 0 obj 967
endobj
1093 0 obj<>stream
/Artifact <>BDC
EMC
/Article <>BDC
q
0 18 792 576 re
W* n
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 10.43086 0 0 10.43086 398.42145 570.88489 Tm
( )Tj
0 -2.55714 TD
( )Tj
0 0 1 rg
/TT0 1 Tf
27.2807 0 0 27.2807 359.56812 503.9433 Tm
(CAMS )Tj
0 0 0 rg
/T1_0 1 Tf
1.347 -1.75105 Td
( )Tj
-9.138 -1.7189 Td
(Center for Applied Mathematics and Statistics)Tj
9.138 -1.7189 Td
( )Tj
0 -1.7189 TD
( )Tj
T*
( )Tj
T*
( )Tj
0 0 1 rg
/TT1 1 Tf
-4.245 -1.71727 Td
(ANNUAL REPORT)Tj
18.45459 0 0 18.45459 350.26703 135.5332 Tm
(1998-1999)Tj
0 0 0 rg
2.52 -1.96709 Td
( )Tj
0 -1.96709 TD
( )Tj
T*
( )Tj
ET
EMC
/Artifact <>BDC
Q
0 0 0 rg
0 i
BT
/T1_0 1 Tf
0 Tc 0 Tw 0 Ts 100 Tz 0 Tr 6.70555 0 0 6.70555 18 8.91124 Tm
(http://math.njit.edu/CAMS/Annual_Reports/cams99.html \(1 of 87\)11/11/20\
04 4:53:24 AM)Tj
ET
EMC
endstream
endobj
1094 0 obj<>stream
SUMMARIES OF RESEARCH ACTIVITIES SUBMITTED BY INDIVIDUALS
endstream
endobj
xref
1 1
0000312329 00000 n
3 1
0000312459 00000 n
11 1
0000312642 00000 n
979 116
0000312849 00000 n
0000312871 00000 n
0000312893 00000 n
0000313986 00000 n
0000314008 00000 n
0000315100 00000 n
0000315122 00000 n
0000316213 00000 n
0000316235 00000 n
0000317325 00000 n
0000317347 00000 n
0000318436 00000 n
0000318458 00000 n
0000319546 00000 n
0000319568 00000 n
0000320655 00000 n
0000320677 00000 n
0000321763 00000 n
0000321785 00000 n
0000322870 00000 n
0000322892 00000 n
0000323976 00000 n
0000323999 00000 n
0000325084 00000 n
0000325107 00000 n
0000326191 00000 n
0000326214 00000 n
0000327297 00000 n
0000327320 00000 n
0000328402 00000 n
0000328425 00000 n
0000329506 00000 n
0000329529 00000 n
0000330609 00000 n
0000330632 00000 n
0000331711 00000 n
0000331734 00000 n
0000332812 00000 n
0000332835 00000 n
0000333912 00000 n
0000333935 00000 n
0000335011 00000 n
0000335034 00000 n
0000336109 00000 n
0000336132 00000 n
0000337206 00000 n
0000337229 00000 n
0000338302 00000 n
0000338325 00000 n
0000339397 00000 n
0000339420 00000 n
0000340491 00000 n
0000340514 00000 n
0000341584 00000 n
0000341607 00000 n
0000342676 00000 n
0000342699 00000 n
0000343767 00000 n
0000343790 00000 n
0000344857 00000 n
0000344880 00000 n
0000345946 00000 n
0000345969 00000 n
0000347034 00000 n
0000347057 00000 n
0000348121 00000 n
0000348144 00000 n
0000349207 00000 n
0000349230 00000 n
0000350292 00000 n
0000350315 00000 n
0000351376 00000 n
0000351399 00000 n
0000352459 00000 n
0000352482 00000 n
0000353541 00000 n
0000353564 00000 n
0000354622 00000 n
0000354645 00000 n
0000355702 00000 n
0000355724 00000 n
0000356780 00000 n
0000356802 00000 n
0000357857 00000 n
0000357879 00000 n
0000358933 00000 n
0000358955 00000 n
0000360008 00000 n
0000360030 00000 n
0000361082 00000 n
0000361104 00000 n
0000362155 00000 n
0000362177 00000 n
0000363227 00000 n
0000363249 00000 n
0000364298 00000 n
0000364320 00000 n
0000365368 00000 n
0000365390 00000 n
0000366437 00000 n
0000366459 00000 n
0000367505 00000 n
0000367527 00000 n
0000368572 00000 n
0000368594 00000 n
0000369638 00000 n
0000369660 00000 n
0000370703 00000 n
0000370725 00000 n
0000371767 00000 n
0000371789 00000 n
0000372830 00000 n
0000372852 00000 n
0000373892 00000 n
0000373914 00000 n
0000374938 00000 n
trailer
<]/Prev 292591 >>
startxref
378296
%%EOF