Difference between revisions of "Materials"

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(Projects)
(Lectures, Labs & Homework)
 
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* Project 1: Hodgkin & Huxley without a voltage clamp.  Here is one of the original Hodgkin-Huxley papers: [[Media:Hodgkinconduction1952.pdf|Click here]].
 
* Project 1: Hodgkin & Huxley without a voltage clamp.  Here is one of the original Hodgkin-Huxley papers: [[Media:Hodgkinconduction1952.pdf|Click here]].
  
* Project 2: Detecting ionic currents.  Here is a recent paper that attempts to do the same thing with another method: [[Media:WillmsNeurofit2002.pdf|Click here]].
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* Project 2: Detecting ionic currents.  Here is a recent paper that attempts to do the same thing with another method: [[Media:WillmsNeurofit2002.pdf|Click here]].  Here is a paper with a model that has many currents: [[Media:LPCellModel.pdf|Click here]].
  
 
* Project 3: The chaotic ghostburster: Here is the original (and recent) ghostbursting paper: [[Media:Doironghostbursting2002.pdf|Click here]].
 
* Project 3: The chaotic ghostburster: Here is the original (and recent) ghostbursting paper: [[Media:Doironghostbursting2002.pdf|Click here]].
  
== Lectures & Labs ==
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== Lectures, Labs & Homework ==
  
* [[Introduction|Introduction to System Identification]]
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* A: [[Introduction|Introduction to System Identification]]
  
* [[Likelihood|Probability and Likelihood]]
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* B: [[Likelihood|Probability and Likelihood]]
  
== Homework ==
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* C: [[MoreLikelihood|Likelihood for Two or More Data Points]]
  
Due Wednesday night, 1/28/09, at midnight:
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* D: [[NIA2Intro|An Introduction to Neurons in Action, Version 2]]
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* E: [[NIA2Membrane|The Membrane Tutorial]]
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* F: [[DiffEqs|Equilibrium Potential Tutorial And Equations For Labs E & F]]
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* G: [[NumericalDiffEqs|The Action Potential]]
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* H: [[Threshold|Threshold Tutorial]]
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* I: [[NumHH|Numerically Solving the Hodgkin Huxley Equation]]
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* J: [[VoltageClamp|Voltage Clamp Tutorial]]
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* K: [[PassiveMembrane|The Passive Axon Tutorial]]
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* L: [[TutorialPartA|The NEURON Tutorial, Part A]]
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* M [[TutorialPartB|The NEURON Tutorial, Part B]]
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* N: [[Unmyelinated|The Unmyelinated Axon Tutorial]]
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* O: [[Chattering|The Chattering Ion Channel Tutorial]]
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* P: [[Stylized|Creating a stylized ("stick figure") model cell]]
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* Q: [[Kinetics|Sodium & Potassium Channel Kinetics Tutorial]]
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* R: [[Kinetics_Continued|Sodium & Potassium Channel Kinetics Continued]]
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* S: [[MultipleRunFItter| Fitting a Function to Data with NEURON]]
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* T: [[Bayesian Filtering|Bayesian Filtering]]
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* U: [[Channel_Builder|Channel Builder]]
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* V: [[Kinetic_Scheme|Kinetic Scheme]]
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* W: [[Optimization|Optimization]]
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* X: [[Selection|Model Selection]]
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* Y: [[ModelDB|ModelDB: A Database of Hundreds of Neural Models]]
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* Z: [[Projects|Projects!]]
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== Surveys ==
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* [[Survey01| Survey 1]]
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* [[Survey02| Survey 2]]
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* [[Survey03| Survey 3]]
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* [[Survey04| Survey 4]]
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* [[Survey05| Survey 5]]
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* [[Survey06| Survey 6]]
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== Miscellaneous ==
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* [[OpeningMatlab| Opening Matlab on Macs Under OSX 10.5 ]]
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* [[ClosingPrograms| Closing Programs at the End of Class]]
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* [http://advanced.jhu.edu/students/jshare/ Setting up JShare]
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* [[Filename_Convention|Homework File Name Convention]].
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* A syllabus for a [[Media:SpallSyllabus.pdf|related class]].
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* A [[Media:YaleTalk.pdf|talk I gave at Yale]].
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== Group Email to Students ==
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* [[Email_Sunday_Feb_01| Resent Monday, Feb 2]]

Latest revision as of 19:52, 29 April 2009

Projects

The project ideas are described near the bottom of the Main Page. (To get the Main Page, click on the image of the fish at left.) Here are some relevant papers.

  • Project 1: Hodgkin & Huxley without a voltage clamp. Here is one of the original Hodgkin-Huxley papers: Click here.
  • Project 2: Detecting ionic currents. Here is a recent paper that attempts to do the same thing with another method: Click here. Here is a paper with a model that has many currents: Click here.
  • Project 3: The chaotic ghostburster: Here is the original (and recent) ghostbursting paper: Click here.

Lectures, Labs & Homework

Surveys

Miscellaneous

Group Email to Students