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Injecting a current
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Related lectures (31)
Scientific Computing in Neuroscience
Explores the history and tools of scientific computing in neuroscience, emphasizing the simulation of neurons and networks.
Network Simulation and Activity Dynamics
Explores neural network simulation, activity dynamics, and validation processes to ensure accurate predictions.
CA1 single cell models
Explores the peculiar properties, variability, optimization, and degeneracy of CA1 neurons.
Simulating Single Cells with Paired Recording App
Demonstrates simulating single cells in a hippocampus microcircuit using a paired recording app.
Data strategies: building neural circuits
Explores data strategies for building neural circuits in simulation neuroscience.
Modeling the electrical activity of the neuron
Explores the modeling of neuron electrical activity, including ion channels and concentrations, Nernst equation, and resting potential.
Network Simulation: Spontaneous Activity and Validation
Covers spontaneous brain network activity, neural simulation, and validation, emphasizing the importance of in-vitro and in-vivo conditions for accurate network modeling.
Scientific Computing in Neuroscience
Explores scientific computing in neuroscience, emphasizing the simulation of neurons and networks using tools like NEURON, NEST, and BRIAN.
In Silico Neuroscience: Network Assembly
Explores assembling in silico neuroscience networks, defining space, and dealing with sparse data to reconstruct brain regions.
Dendrite as a Cable
Discusses dendrites as cables, covering the cable equation derivation and current conservation in coupled compartments.
Configuring your synapse to realistic biological ranges
Covers configuring synapses to realistic biological ranges and visualizing NMDA conductance dependencies.
Computational Neuroscience: Biophysics & Modeling
Covers the fundamentals of computational neuroscience, focusing on biophysics and modeling.
Simulating a hippocampus microcircuit
Covers the simulation of a hippocampus microcircuit with paired recordings in a rat CA1 model.
Why study human neuronal microcircuits
Explores the significance of studying human neuronal microcircuits and their correlation with brain size and cognitive abilities.
Collective Behavior in Drosophila
Delves into collective behavior in Drosophila, highlighting social interactions, mechanosensation, and odor avoidance.
Neurons and Synapses: Overview
Covers computational neuroscience basics, single neuron models, synapses, and neural variability.
Understanding Synaptic Transmission
Explores synaptic transmission, neurotransmitters, and neural plasticity principles.
Modeling Electrophysiology: Different Scales
Covers modeling electrophysiology at different scales, discussing ion channels, single neurons, and microcircuits.
Single Neuron Data Collection Techniques
Covers the methods for studying single neurons, including morphology and electrophysiology profiling.
Neuronal Dynamics: Random Networks
Explores the dynamics of neuronal populations, emphasizing random networks and mean-field arguments for connectivity.
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