Visual Computations and Circuits | Receptive Fields | Sparse Coding Hypothesis
Bing Wen Brunton
Visual Computations and Circuits | Receptive Fields | Sparse Coding Hypothesis
32:26
Color vision | Rod and cone cells in the retina
Bing Wen Brunton
Color vision | Rod and cone cells in the retina
23:18
Visual perception | Retina, photoreceptors, and rhodopsin
Bing Wen Brunton
Visual perception | Retina, photoreceptors, and rhodopsin
33:51
Non-invasive Methods in Neuroscience, fMRI, MEG, EEG
Bing Wen Brunton
Non-invasive Methods in Neuroscience, fMRI, MEG, EEG
18:41
Optical Methods in Neuroscience: Calcium Imaging, Optogenetics
Bing Wen Brunton
Optical Methods in Neuroscience: Calcium Imaging, Optogenetics
49:27
Electrical Methods in Neuroscience: Multi-electrode Recordings, Spike Sorting, Raster Plots
Bing Wen Brunton
Electrical Methods in Neuroscience: Multi-electrode Recordings, Spike Sorting, Raster Plots
41:27
Coordinates and Sections of the Nervous System
Bing Wen Brunton
Coordinates and Sections of the Nervous System
16:40
Is the Brain a Computer? | Sensing and Action in the Brain
Bing Wen Brunton
Is the Brain a Computer? | Sensing and Action in the Brain
11:38
Drug Addiction and Learning
Bing Wen Brunton
Drug Addiction and Learning
14:01
(Recreational) Drugs and the Brain
Bing Wen Brunton
(Recreational) Drugs and the Brain
15:49
Types of Synapses
Bing Wen Brunton
Types of Synapses
15:51
Synaptic Transmission at a Chemical Synapse | Quantal Release of Neurotransmitters
Bing Wen Brunton
Synaptic Transmission at a Chemical Synapse | Quantal Release of Neurotransmitters
33:26
Neurotransmitters | Ionotropic and Metabotropic Receptors of the Synapse
Bing Wen Brunton
Neurotransmitters | Ionotropic and Metabotropic Receptors of the Synapse
40:22
Anatomy of a Neuron | Parts of a Synapse
Bing Wen Brunton
Anatomy of a Neuron | Parts of a Synapse
24:49
The Action Potential | Myelinated Axons
Bing Wen Brunton
The Action Potential | Myelinated Axons
53:10
Active Properties of Neurons | Responses to Current | Cable Equation in Axon Conduction
Bing Wen Brunton
Active Properties of Neurons | Responses to Current | Cable Equation in Axon Conduction
21:25
Why do neurons have an electric charge? | Nernst Potential | Resting Potential of Neurons
Bing Wen Brunton
Why do neurons have an electric charge? | Nernst Potential | Resting Potential of Neurons
47:42
Animal Electricity | The Neuron Doctrine
Bing Wen Brunton
Animal Electricity | The Neuron Doctrine
17:25
Intro to Neuroscience, Overview and goals
Bing Wen Brunton
Intro to Neuroscience, Overview and goals
27:58
Data Visualization: Buyer Beware
Bing Wen Brunton
Data Visualization: Buyer Beware
9:45
Data Visualization: Storytelling with Data
Bing Wen Brunton
Data Visualization: Storytelling with Data
5:52
Data Visualization: Types of Data
Bing Wen Brunton
Data Visualization: Types of Data
15:13
Data Visualization: Overview
Bing Wen Brunton
Data Visualization: Overview
4:56
AJILE: Wang et al, AAAI 2018
Bing Wen Brunton
AJILE: Wang et al, AAAI 2018
13:18
Sparse Sensor Placement Optimization for Classification (SSPOC)
Bing Wen Brunton
Sparse Sensor Placement Optimization for Classification (SSPOC)
39:10