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The following pages are not linked from or transcluded into other pages in Ilya Nemenman: Theoretical Biophysics @ Emory.

Showing below up to 250 results in range #1 to #250.

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  1. Bel et al., 2010
  2. CNS Clinic 2012: Dynamic Clamping
  3. CNS Clinic 2012: Information theory for understanding the neural code
  4. CNS Clinic 2012: Ins and outs of script programming with Genesis
  5. CNS Clinic 2012: Model fitting with neural data: Stories from the trenches
  6. CNS Clinic 2012: Principal Components Analysis of neural and behavioral data
  7. CNS Clinic 2012: Spike train analysis
  8. Diagnostics using microarray data
  9. E. coli chemoreceptor: mesoscopic model
  10. Entropy Estimation
  11. Entropy estimation methods
  12. Establishing causality
  13. First q-bio Conference: Employment board
  14. First q-bio Conference: Participants
  15. First q-bio Conference: Program
  16. First q-bio Conference: Program Details
  17. First q-bio Summer School: Classrooms
  18. First q-bio Summer School: Gene Regulation
  19. First q-bio Summer School: Other Topics in Biological Modeling
  20. First q-bio Summer School: Participants
  21. First q-bio Summer School: Program
  22. First q-bio Summer School: School Hotel
  23. First q-bio Summer School: Signal Transduction Mechanisms
  24. First q-bio Summer School: Stochasticity in Biochemistry and Systems Biology
  25. Group seminar / Journal club
  26. INemenman
  27. Information Bottleneck Method
  28. Information processing in biological systems
  29. Installing Octave on your PC and Mac
  30. Learning, adaptation, and adaptive behaviors
  31. Michaelis-Menten reaction: pump current and other stochastic effects
  32. Mugler et al., 2009
  33. Nemenman-filtering
  34. Nemenman and Wiggins
  35. Nemenman et al.
  36. P53 regulation
  37. Personal Pages
  38. Physics 212, 2016: Syllabus
  39. Physics 212, 2017: Lab 10
  40. Physics 212, 2017: Lab 12
  41. Physics 212, 2017: Lab 4
  42. Physics 212, 2017: Lab 5: Starting with Project 2
  43. Physics 212, 2017: Lab 7
  44. Physics 212, 2017: Lecture 10
  45. Physics 212, 2017: Lecture 11: Good coding practices
  46. Physics 212, 2017: Lecture 12: More Python: Scopes and all that
  47. Physics 212, 2017: Lecture 13
  48. Physics 212, 2017: Lecture 14
  49. Physics 212, 2017: Lecture 15
  50. Physics 212, 2017: Lecture 18: Introduction to randomness. How are pseudo-random numbers generated?
  51. Physics 212, 2017: Lecture 1 - Introduction
  52. Physics 212, 2017: Lecture 2
  53. Physics 212, 2017: Lecture 23
  54. Physics 212, 2017: Lecture 24
  55. Physics 212, 2017: Lecture 25
  56. Physics 212, 2017: Lecture 3 - The Modeling Process
  57. Physics 212, 2017: Lecture 7
  58. Physics 212, 2017: Lecture 8
  59. Physics 212, 2017: Lecture 9: Errors
  60. Physics 212, 2017: Lectures 5, 6
  61. Physics 212, 2017: Syllabus
  62. Physics 212, 2018: Lab 11
  63. Physics 212, 2018: Lab 12
  64. Physics 212, 2018: Lecture 1
  65. Physics 212, 2018: Lecture 10
  66. Physics 212, 2018: Lecture 11
  67. Physics 212, 2018: Lecture 12
  68. Physics 212, 2018: Lecture 13
  69. Physics 212, 2018: Lecture 14
  70. Physics 212, 2018: Lecture 15
  71. Physics 212, 2018: Lecture 17
  72. Physics 212, 2018: Lecture 18
  73. Physics 212, 2018: Lecture 19
  74. Physics 212, 2018: Lecture 2
  75. Physics 212, 2018: Lecture 21
  76. Physics 212, 2018: Lecture 22
  77. Physics 212, 2018: Lecture 23
  78. Physics 212, 2018: Lecture 24
  79. Physics 212, 2018: Lecture 25
  80. Physics 212, 2018: Lecture 3
  81. Physics 212, 2018: Lectures 4
  82. Physics 212, 2018: Lectures 6
  83. Physics 212, 2018: Lectures 7
  84. Physics 212, 2018: Lectures 8
  85. Physics 212, 2018: Lectures 9
  86. Physics 212, 2018: Syllabus
  87. Physics 212, 2019: Lecture 18
  88. Physics 212, 2019: Lecture 19
  89. Physics 212, 2019: Lecture 20
  90. Physics 212, 2019: Lecture 22
  91. Physics 380, 2010: Basic Probability Theory
  92. Physics 380, 2010: Coding Theorems
  93. Physics 380, 2010: Fourier Analysis
  94. Physics 380, 2010: Information, Gambling, and Population Biology
  95. Physics 380, 2010: Information Theory
  96. Physics 380, 2010: Introduction
  97. Physics 380, 2010: Linear Response Theory
  98. Physics 380, 2010: Random Walks
  99. Physics 380, 2011: Block four: Adaptation
  100. Physics 380, 2011: Block one: Biological information processing is probabilistic
  101. Physics 380, 2011: Block three: Dynamical Information Processing
  102. Physics 380, 2011: Block two: Information theory in biological signaling
  103. Physics 380, 2011: Homework 1
  104. Physics 380, 2011: Homework 10
  105. Physics 380, 2011: Homework 2
  106. Physics 380, 2011: Homework 3
  107. Physics 380, 2011: Homework 4
  108. Physics 380, 2011: Homework 5
  109. Physics 380, 2011: Homework 6
  110. Physics 380, 2011: Homework 7
  111. Physics 380, 2011: Homework 8
  112. Physics 380, 2011: Homework 9
  113. Physics 380, 2011: Lecture 1
  114. Physics 380, 2011: Lecture 10
  115. Physics 380, 2011: Lecture 11
  116. Physics 380, 2011: Lecture 12
  117. Physics 380, 2011: Lecture 13
  118. Physics 380, 2011: Lecture 14
  119. Physics 380, 2011: Lecture 15
  120. Physics 380, 2011: Lecture 16
  121. Physics 380, 2011: Lecture 17
  122. Physics 380, 2011: Lecture 18
  123. Physics 380, 2011: Lecture 19
  124. Physics 380, 2011: Lecture 2
  125. Physics 380, 2011: Lecture 21
  126. Physics 380, 2011: Lecture 22
  127. Physics 380, 2011: Lecture 23
  128. Physics 380, 2011: Lecture 24
  129. Physics 380, 2011: Lecture 25
  130. Physics 380, 2011: Lecture 26
  131. Physics 380, 2011: Lecture 27
  132. Physics 380, 2011: Lecture 3
  133. Physics 380, 2011: Lecture 4
  134. Physics 380, 2011: Lecture 5
  135. Physics 380, 2011: Lecture 6
  136. Physics 380, 2011: Lecture 7
  137. Physics 380, 2011: Lecture 8
  138. Physics 380, 2011: Lecture 9
  139. Physics 380, 2012: Homework 11
  140. Physics 380, 2012: Homework 12
  141. Physics 434, 2012: Block one: Biological information processing is probabilistic
  142. Physics 434, 2012: Block three: Dynamical Information Processing
  143. Physics 434, 2012: Block two: Information theory in biological signaling
  144. Physics 434, 2012: Homework 1
  145. Physics 434, 2012: Homework 10
  146. Physics 434, 2012: Homework 2
  147. Physics 434, 2012: Homework 3
  148. Physics 434, 2012: Homework 4
  149. Physics 434, 2012: Homework 5
  150. Physics 434, 2012: Homework 6
  151. Physics 434, 2012: Homework 7
  152. Physics 434, 2012: Homework 8
  153. Physics 434, 2012: Homework 9
  154. Physics 434, 2012: Lecture 1
  155. Physics 434, 2012: Lecture 10
  156. Physics 434, 2012: Lecture 14
  157. Physics 434, 2012: Lecture 15
  158. Physics 434, 2012: Lecture 16
  159. Physics 434, 2012: Lecture 17
  160. Physics 434, 2012: Lecture 20
  161. Physics 434, 2012: Lecture 4
  162. Physics 434, 2012: Lecture 5
  163. Physics 434, 2012: Lecture 6
  164. Physics 434, 2012: Lecture 7
  165. Physics 434, 2012: Lectures 10-11
  166. Physics 434, 2012: Lectures 12-13
  167. Physics 434, 2012: Lectures 2-3
  168. Physics 434, 2012: Lectures 8, 9
  169. Physics 434, 2012: Syllabus
  170. Physics 434, 2014: Block one: Biological information processing is probabilistic
  171. Physics 434, 2014: Central limit theorem
  172. Physics 434, 2014: Continuous randomness
  173. Physics 434, 2014: Homework 1
  174. Physics 434, 2014: Homework 2
  175. Physics 434, 2014: Homework 3
  176. Physics 434, 2014: Homework 4
  177. Physics 434, 2014: Homework 5
  178. Physics 434, 2014: Homework 6
  179. Physics 434, 2014: Homework 7
  180. Physics 434, 2014: Homework 8
  181. Physics 434, 2014: Introduction
  182. Physics 434, 2014: Luria-Delbruck experiment
  183. Physics 434, 2014: Project 1 -- Multistability and a molecular clock
  184. Physics 434, 2014: Project 2 -- Who controls whom?
  185. Physics 434, 2014: Project 3 -- Noise propagation
  186. Physics 434, 2014: Project 4 -- Luria and Delbruck, take 2
  187. Physics 434, 2014: Projects
  188. Physics 434, 2014: Random walks and diffusion
  189. Physics 434, 2014: Scripts
  190. Physics 434, 2014: Search and first passage times
  191. Physics 434, 2014: Stochastic chemical kinetics
  192. Physics 434, 2014: Syllabus
  193. Physics 434, 2015: Homework 1
  194. Physics 434, 2015: Homework 10
  195. Physics 434, 2015: Homework 2
  196. Physics 434, 2015: Homework 3
  197. Physics 434, 2015: Homework 4
  198. Physics 434, 2015: Homework 5
  199. Physics 434, 2015: Homework 6
  200. Physics 434, 2015: Homework 7
  201. Physics 434, 2015: Homework 8
  202. Physics 434, 2015: Homework 9
  203. Physics 434, 2015: Introduction to Information theory
  204. Physics 434, 2015: Project 1, Luria-Delbruck, Revisited
  205. Physics 434, 2015: Project 2 -- Multistability in gene expression
  206. Physics 434, 2015: Project 3 -- Who controls whom?
  207. Physics 434, 2015: Project 4 -- Noise Propagation
  208. Physics 434, 2015: Project 5
  209. Physics 434, 2015: Syllabus
  210. Physics 434, 2016: Discrete randomness
  211. Physics 434, 2016: Homework 1
  212. Physics 434, 2016: Homework 2
  213. Physics 434, 2016: Homework 3
  214. Physics 434, 2016: Homework 4
  215. Physics 434, 2016: Homework 5
  216. Physics 434, 2016: Homework 6
  217. Physics 434, 2016: Homework 7
  218. Physics 434, 2016: Homework 8
  219. Physics 434, 2016: Homework 9
  220. Physics 434, 2016: Law of large numbers
  221. Physics 434, 2016: Project 1
  222. Physics 434, 2016: Project 2
  223. Physics 434, Lecture 1 additional notes
  224. Physics 511A, 2011: Chapter 1, Volume 2. The principle of relativity
  225. Physics 511A, 2012: Chapter 1, Volume 8. Electrostatics of conductors
  226. Physics 511A, 2012: Chapter 2, Volume 2. Relativistic mechanics
  227. Physics 511A, 2012: Chapter 2, Volume 8. Electrostatics of dielectric
  228. Physics 511A, 2012: Chapter 3, Volume 2. Charges in electromagnetic field
  229. Physics 511A, 2012: Chapter 3, Volume 8. Steady current
  230. Physics 511A, 2012: Chapter 4, Volume 2. Electromagnetic field equations
  231. Physics 511A, 2012: Chapter 4, Volume 8. Static magnetic field
  232. Physics 511A, 2012: Chapter 5, Volume 2. Constant electromagnetic fields
  233. Physics 511A, 2012: Chapter 6, Volume 2. Electromagnetic waves
  234. Physics 511A, 2012: Chapter 7, Volume 2. Propagation of light
  235. Physics 511A, 2012: Chapter 8, Volume 2. The field of moving charges
  236. Physics 511A, 2012: Chapter 9, Volume 2. Radiation of electromagnetic waves
  237. Physics 511A, 2012: Waves in media
  238. Physics 511A, 2013: Chapter 1, Volume 2. The principle of relativity
  239. Physics 511A, 2013: Chapter 1, Volume 8. Electrostatics of conductors
  240. Physics 511A, 2013: Chapter 2, Volume 2. Relativistic mechanics
  241. Physics 511A, 2013: Chapter 2, Volume 8. Electrostatics of dielectric
  242. Physics 511A, 2013: Chapter 3, Volume 2. Charges in electromagnetic field
  243. Physics 511A, 2013: Chapter 3, Volume 8. Steady current
  244. Physics 511A, 2013: Chapter 4, Volume 2. Electromagnetic field equations
  245. Physics 511A, 2013: Chapter 4, Volume 8. Static magnetic field
  246. Physics 511A, 2013: Chapter 5, Volume 2. Constant electromagnetic fields
  247. Physics 511A, 2013: Chapter 6, Volume 2. Electromagnetic waves
  248. Physics 511A, 2013: Chapter 7, Volume 2. Propagation of light
  249. Physics 511A, 2013: Chapter 8, Volume 2. The field of moving charges
  250. Physics 511A, 2013: Chapter 9, Volume 2. Radiation of electromagnetic waves

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