The finite-difference time-domain (FDTD) method is a numerical analysis technique used for electromagnetic simulation, particularly in antenna design. This method solves Maxwell's equations to simulate the behavior of electromagnetic waves.
A Python implementation of the FDTD method for electromagnetic simulation, including examples for antenna design and simulation. The code is open-source and available for download.
This course covers the fundamentals of electromagnetic simulation using the FDTD method, including applications in antenna design and other fields. Lecture notes and assignments are available online.
This article presents a study on the FDTD simulation of antenna radiation patterns, including the effects of different antenna geometries and materials. The results are compared with experimental measurements.
This video lecture introduces the basics of the FDTD method for electromagnetic simulation, including its applications in antenna design and other fields. The lecture is part of a series on computational electromagnetics.
This research project explores the application of the FDTD method for electromagnetic simulation in antenna design, including the development of new algorithms and techniques for improving simulation accuracy.
OpenEMS is an open-source FDTD simulator for electromagnetic simulation, including applications in antenna design. The software is written in Python and is available for download.
This technical report presents a study on the application of the FDTD method for electromagnetic simulation and antenna design, including the development of new algorithms and techniques for improving simulation accuracy.