Orphaned pages
The following pages are not linked from or transcluded into other pages in Ilya Nemenman: Theoretical Biophysics @ Emory.
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- Bel et al., 2010
- CNS Clinic 2012: Dynamic Clamping
- CNS Clinic 2012: Information theory for understanding the neural code
- CNS Clinic 2012: Ins and outs of script programming with Genesis
- CNS Clinic 2012: Model fitting with neural data: Stories from the trenches
- CNS Clinic 2012: Principal Components Analysis of neural and behavioral data
- CNS Clinic 2012: Spike train analysis
- Diagnostics using microarray data
- E. coli chemoreceptor: mesoscopic model
- Entropy Estimation
- Entropy estimation methods
- Establishing causality
- First q-bio Conference: Employment board
- First q-bio Conference: Participants
- First q-bio Conference: Program
- First q-bio Conference: Program Details
- First q-bio Summer School: Classrooms
- First q-bio Summer School: Gene Regulation
- First q-bio Summer School: Other Topics in Biological Modeling
- First q-bio Summer School: Participants
- First q-bio Summer School: Program
- First q-bio Summer School: School Hotel
- First q-bio Summer School: Signal Transduction Mechanisms
- First q-bio Summer School: Stochasticity in Biochemistry and Systems Biology
- Group seminar / Journal club
- INemenman
- Information Bottleneck Method
- Information processing in biological systems
- Installing Octave on your PC and Mac
- Learning, adaptation, and adaptive behaviors
- Michaelis-Menten reaction: pump current and other stochastic effects
- Mugler et al., 2009
- Nemenman-filtering
- Nemenman and Wiggins
- Nemenman et al.
- P53 regulation
- Personal Pages
- Physics 212, 2016: Syllabus
- Physics 212, 2017: Lab 10
- Physics 212, 2017: Lab 12
- Physics 212, 2017: Lab 4
- Physics 212, 2017: Lab 5: Starting with Project 2
- Physics 212, 2017: Lab 7
- Physics 212, 2017: Lecture 10
- Physics 212, 2017: Lecture 11: Good coding practices
- Physics 212, 2017: Lecture 12: More Python: Scopes and all that
- Physics 212, 2017: Lecture 13
- Physics 212, 2017: Lecture 14
- Physics 212, 2017: Lecture 15
- Physics 212, 2017: Lecture 18: Introduction to randomness. How are pseudo-random numbers generated?
- Physics 212, 2017: Lecture 1 - Introduction
- Physics 212, 2017: Lecture 2
- Physics 212, 2017: Lecture 23
- Physics 212, 2017: Lecture 24
- Physics 212, 2017: Lecture 25
- Physics 212, 2017: Lecture 3 - The Modeling Process
- Physics 212, 2017: Lecture 7
- Physics 212, 2017: Lecture 8
- Physics 212, 2017: Lecture 9: Errors
- Physics 212, 2017: Lectures 5, 6
- Physics 212, 2017: Syllabus
- Physics 212, 2018: Lab 11
- Physics 212, 2018: Lab 12
- Physics 212, 2018: Lecture 1
- Physics 212, 2018: Lecture 10
- Physics 212, 2018: Lecture 11
- Physics 212, 2018: Lecture 12
- Physics 212, 2018: Lecture 13
- Physics 212, 2018: Lecture 14
- Physics 212, 2018: Lecture 15
- Physics 212, 2018: Lecture 17
- Physics 212, 2018: Lecture 18
- Physics 212, 2018: Lecture 19
- Physics 212, 2018: Lecture 2
- Physics 212, 2018: Lecture 21
- Physics 212, 2018: Lecture 22
- Physics 212, 2018: Lecture 23
- Physics 212, 2018: Lecture 24
- Physics 212, 2018: Lecture 25
- Physics 212, 2018: Lecture 3
- Physics 212, 2018: Lectures 4
- Physics 212, 2018: Lectures 6
- Physics 212, 2018: Lectures 7
- Physics 212, 2018: Lectures 8
- Physics 212, 2018: Lectures 9
- Physics 212, 2018: Syllabus
- Physics 212, 2019: Lecture 18
- Physics 212, 2019: Lecture 19
- Physics 212, 2019: Lecture 20
- Physics 212, 2019: Lecture 22
- Physics 380, 2010: Basic Probability Theory
- Physics 380, 2010: Coding Theorems
- Physics 380, 2010: Fourier Analysis
- Physics 380, 2010: Information, Gambling, and Population Biology
- Physics 380, 2010: Information Theory
- Physics 380, 2010: Introduction
- Physics 380, 2010: Linear Response Theory
- Physics 380, 2010: Random Walks
- Physics 380, 2011: Block four: Adaptation
- Physics 380, 2011: Block one: Biological information processing is probabilistic
