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Lecture
Single cell electrical models: passive
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Modeling the electrical activity of the neuron
Explores the modeling of neuron electrical activity, including ion channels and concentrations, Nernst equation, and resting potential.
In Silico Neuroscience: Ion Channels and Neuronal Models
Explores detailed modeling of ion channels and neuronal morphologies in in silico neuroscience, covering neuron classification, ion channel kinetics, and experimental observations.
Action Potentials and Electrical Excitability
Explores the generation and propagation of action potentials in neurons, including the historical significance of Hodgkin & Huxley's work.
Biological Electricity: Action Potential Propagation and Modeling
Explores action potential propagation, membrane modeling, conductance, and encoding signals through action potential trains.
Ion Channels: Structure and Function
Explores the biophysics of ion channels and their vital role in neuronal signaling and physiological processes.
Injecting a current
Explains injecting current into a neuron, creating recordings, running simulations, and handling synapses.
Scientific Computing in Neuroscience
Explores the history and tools of scientific computing in neuroscience, emphasizing the simulation of neurons and networks.
Electricity in Cells
Explores the physical basis of signal propagation in neurons, focusing on membrane potential setup and ion channels.
Optimization of Neuroprosthetic Systems
Explores the optimization of neuroprosthetic systems, including sensory feedback restoration and neural stimulation strategies.
Voltage-gated channels
Explores the cellular mechanisms of brain function through voltage-gated ion channels and their role in regulating membrane potential.
