The finite-difference time-domain (FDTD) method is a popular numerical technique for simulating electromagnetic phenomena, including antenna design. This article reviews the FDTD method and its applications in electromagnetic simulation.
This repository provides a Python implementation of the FDTD method for antenna design and electromagnetic simulation. The code includes examples and tutorials for simulating various antenna structures.
This course covers the fundamentals of electromagnetic simulation using the FDTD method, including antenna design and optimization. The course includes lectures, assignments, and projects.
This article presents a study on the simulation of antenna radiation patterns using the FDTD method. The results show good agreement with experimental measurements and demonstrate the effectiveness of the FDTD method for antenna design.
This video lecture introduces the basics of the FDTD method for electromagnetic simulation, including its formulation, implementation, and applications in antenna design.
This review article provides an overview of the FDTD method for electromagnetic simulation, including its history, formulation, and applications in antenna design and other areas.
This Python package provides a simple and efficient FDTD simulator for antenna design and electromagnetic simulation. The package includes documentation and examples.
This technical report describes the use of the FDTD method for electromagnetic simulation and antenna design in NASA applications. The report includes case studies and results.