NPTEL-NOC IITM Courses

Finite Difference Time Domain Methods: 2D FDTD Formulation and Time Stepping

Explore 2D FDTD formulation and time stepping in finite difference time domain methods. Master advanced computational techniques for electromagnetic simulations.

• YouTube
• 18 minutes
• On-Demand
• Free Video

2D Finite Element Method - Summary of FEM Procedure

Explore the 2D Finite Element Method procedure, covering key steps and applications in engineering analysis. Gain insights into this powerful numerical technique for solving complex problems.

• YouTube
• 14 minutes
• On-Demand
• Free Video

FDTD: Materials and Boundary Conditions - Absorbing Boundary Conditions in 2D

Explore absorbing boundary conditions in 2D for FDTD simulations of materials, enhancing understanding of electromagnetic wave propagation and computational techniques.

• YouTube
• 13 minutes
• On-Demand
• Free Video

FDTD: Materials and Boundary Conditions - PML - Tangential Boundary Conditions

Explore FDTD materials and boundary conditions, focusing on PML and tangential boundary conditions for advanced electromagnetic simulation techniques.

• YouTube
• 17 minutes
• On-Demand
• Free Video

1D Finite Element Method: Matrix Assembly for 1D Wave Equation

Explore matrix assembly techniques for the 1D Finite Element Method applied to the 1D Wave Equation, enhancing understanding of numerical solutions in computational physics.

• YouTube
• 14 minutes
• On-Demand
• Free Video

Finite Difference Time Domain Methods: Accuracy Considerations in Higher Dimensions

Explore accuracy considerations for Finite Difference Time Domain Methods in higher dimensions, enhancing understanding of numerical simulation techniques.

• YouTube
• 13 minutes
• On-Demand
• Free Video

Applications of Computational Electromagnetics: Hybrid Methods - Motivation

Explore hybrid methods in computational electromagnetics, focusing on their motivations and applications in solving complex electromagnetic problems.

• YouTube
• 16 minutes
• On-Demand
• Free Video

FDTD: Materials and Boundary Conditions - PML and Phase Matching

Explore phase matching in Perfectly Matched Layer (PML) for FDTD simulations. Gain insights into advanced boundary conditions for electromagnetic wave propagation.

• YouTube
• 16 minutes
• On-Demand
• Free Video

Introduction to Green's Function: 1-D Example - Alternate Representation

Explore alternate representations of Green's Function in 1-D, focusing on practical applications and problem-solving techniques in mathematical physics.

• YouTube
• 15 minutes
• On-Demand
• Free Video

FDTD: Materials and Boundary Conditions - Failure of ABC

Explore FDTD simulation limitations in absorbing boundary conditions. Gain insights into material interactions and electromagnetic wave behavior in computational electromagnetics.

• YouTube
• 18 minutes
• On-Demand
• Free Video

FDTD: Materials and Boundary Conditions - Absorbing Boundary Conditions 1D

Explore absorbing boundary conditions in 1D for FDTD simulations of materials, enhancing understanding of electromagnetic wave propagation and computational techniques.

• YouTube
• 10 minutes
• On-Demand
• Free Video

Applications of Computational Electromagnetics: Finite Element-Boundary Integral - Part 3

Explore advanced finite element-boundary integral techniques in computational electromagnetics, focusing on practical applications and problem-solving strategies.

• YouTube
• 19 minutes
• On-Demand
• Free Video

FDTD: Materials and Boundary Conditions - Implementing PML into FDTD - Part 2

Implement PML into FDTD with advanced techniques for materials and boundary conditions. Enhance electromagnetic simulation accuracy and efficiency.

• YouTube
• 18 minutes
• On-Demand
• Free Video

FDTD: Materials and Boundary Conditions - Implementing PML into FDTD - Part 1

Explore implementing Perfectly Matched Layer (PML) boundary conditions in Finite-Difference Time-Domain (FDTD) simulations for electromagnetic wave propagation modeling.

• YouTube
• 11 minutes
• On-Demand
• Free Video

Simple Linear Regression Model Assessment - Continued

Assess simple linear regression models through continued exploration of key concepts and techniques for evaluating model performance and validity.

• YouTube
• 14 minutes
• On-Demand
• Free Video