NPTEL : NOC:Neural Science for Engineers (Electronics and Communication Engineering)

Co-ordinators : Prof. Vikas V


Lecture 1 - Course Outline and Scope

Lecture 2 - Biological Information Systems

Lecture 3 - Analogy between Living Systems with Semiconductor Structures

Lecture 4 - Action Potential - I

Lecture 5 - Action Potential - II

Lecture 6 - Synaptic Potential

Lecture 7 - Threshold and Action Potential Propogation

Lecture 8 - Anatomy of a Neuron

Lecture 9 - Neuro Muscular Junction

Lecture 10 - Spatial and Temporal Summation of neuronal electrical activities

Lecture 11 - Brain Anatomy Introduction

Lecture 12 - Architecture of the Nervous System

Lecture 13 - Architecture of the Nervous System (Continued...)

Lecture 14 - Analog and Digital Processing in the Neuron - I

Lecture 15 - Analog and Digital Processing in the Neuron - II

Lecture 16 - Energy Sources of Neuronal Systems

Lecture 17 - Skull Demonstration

Lecture 18 - Brain Anatomy: Skull

Lecture 19 - Brain Anatomty 3D - I

Lecture 20 - Brain Anatomty 3D - II

Lecture 21 - Brain Anatomty 3D - III

Lecture 22 - Basics of Brain Imaging Techniques

Lecture 23 - Brain anatomy using MR images - I

Lecture 24 - Brain anatomy using MR images - II

Lecture 25 - Spinal Cord Anatomy

Lecture 26 - Reflexes: Introduction

Lecture 27 - Monosynaptic Reflexes

Lecture 28 - Polysynaptic Reflexes

Lecture 29 - Criteria for electrode material

Lecture 30 - Introduction to brain stimulation

Lecture 31 - Brain Stimulation: Device fabrication - Illustration

Lecture 32 - Brain Stimulation: Electronic Systems (Current Mirrors)

Lecture 33 - Brain regions and associated functions

Lecture 34 - Human vision system - II

Lecture 35 - Network analysis during visual processing

Lecture 36 - Control of eye movements

Lecture 37 - COMSOL Multiphysics for Medical Devices

Lecture 38 - COMSOL Brain Electrical Stimulation Demo

Lecture 39 - Human vision system - III

Lecture 40 - Human auditory system - I

Lecture 41 - Human auditory system - II

Lecture 42 - Human auditory system - III

Lecture 43 - The human balance system

Lecture 44 - Movement: Introduction

Lecture 45 - Movement: Synchronization

Lecture 46 - Movement: Role of Spinall Cord

Lecture 47 - Movement: Role of Cerebellum

Lecture 48 - Memory and Learning - I

Lecture 49 - Memory and Learning - II

Lecture 50 - Microengineering devices for Neural Signal Acquisiton

Lecture 51 - Microfabrication Process for Multi Electrode Array

Lecture 52 - Introduction and Applications of Event Related Potentials

Lecture 53 - ERP Extraction Demonstration