This repository explores the Hodgkin-Huxley model, a fundamental framework in neuroscience for understanding the electrical characteristics of neurons and their action potentials.
- Name: Hosein Dadras
- Academic Mail: [email protected]
- Personal Mail: [email protected]
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Introduction to the HH Model
- Theoretical Foundations
- Membrane Potential and Ionic Currents
- Ionic Conductances
- Gating Variables and Kinetics
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Numerical Methods and Simulation
- Techniques and Tools for Simulating the Hodgkin-Huxley Model
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Biophysical Insights
- Dynamics of the Model
- Impact and Applications
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Theoretical Questions
- Minimal Current Leading to Repetitive Spiking
- Effect of Increased Sodium Conductance on Neural Behavior
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Simulation Questions
- Hodgkin-Huxley Model Simulation
- Impact of Stimulus on Membrane Voltage and Spike Frequency
- Exploring Different Initial Conditions
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More Computational Problems
- Threshold Excitation Analysis
- Channel Dynamics Analysis
- Capacitance Effects on Neuronal Dynamics
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Neural Decision-Making Simulation
- Implementation Using the Brian Simulator
- Parameters and Effects of Coherence on Decision-Making