Electromagnetic Simulation Techniques Based on the FDTD Method

Wenhua Yu, PhD , is a Visiting Professor and the Group Leader of the Electromagnetic Communication Lab in the Electrical Engineering Department of Penn State University. Prior to joining the Penn State faculty, Dr. Yu held teaching positions at the Communication University of China and the Beijing Institute of Technology. Dr. Yu, a Senior Member of the IEEE, founded Computer and Communication Unlimited in 2005, where he serves as President and CEO. Xiaoling Yang, MS, is a Research Associate in the Electromagnetic Communication Lab at Penn State University. His research interests include numerical methods, visual languages, and software development. Yongjun Liu, MS , worked at the Beijing Broadcasting Institute before joining the Electromagnetic Communication Lab at Penn State University in 2001. Raj Mittra, PhD , is a Professor in the Electrical Engineering Department of Penn State University. He is Director of the Electromagnetic Communication Lab, which is affiliated with the Communication and Space Sciences Lab. Dr. Mittra, a Life Fellow of the IEEE, is a recipient of the Guggenheim Fellowship Award, IEEE Centennial Medal, IEEE Millennium Medal, IEEE Electromagnetics Award, and the IEEE/AP-S Distinguished Achievement Award. Dr. Mittra is President of RM Associates, a consulting organization that provides services to industrial and governmental organizations throughout the world.

Preface. 1 Introduction to FDTD Method. 1.1 The FDTD Method. 1.2 Numerical Dispersion. 1.3 Stability Analysis. 1.4 Boundary Conditions. References. Exercises. 2 The Advanced FDTD Method. 2.1 Conformal Techniques for PEC Objects. 2.2 Conformal Technique for Dielectric Objects. 2.3 Dispersive Media. 2.4 Circuit Parameters. 2.5 Power Analysis. 2.6 Near-to-Far Field Transformation. References. Exercises. 3 Parallel Computing Techniques. 3.1 Introduction to Parallel Processing Techniques. 3.2 Parallel FDTD Techniques. 3.3 Domain Decomposition Technique. 3.4 Parallel Processing Systems. 3.5 Excitation and Result Collection. References. Exercises. 4 Electromagnetic Simulation Techniques. 4.1 Introduction to Simulation Techniques. 4.2 Three-Dimensional Modeling Techniques. 4.3 Import CAD Models. 4.4 Mesh Design. 4.5 Excitation and Pulse Design. 4.6 Output Design. 4.7 Domain and Boundary Condition Setting. 4.8 Stability Characteristics of an Absorbing Boundary. 4.9 Project Preprocessing Technique. 4.10 Job Submission. References. Exercises. 5 Illustrative Engineering Applications. 5.1 Two-Dimensional Problem. 5.2 Dipole Antenna. 5.3 Rectangular Waveguide. 5.4 RCS of PEC and Dielectric Spheres. 5.5 Antennas. 5.6 Microwave Circuits. 5.7 Electromagnetic Interference. 5.8 Electronic Bandgap Structure. 5.9 RFID. 5.10 Standard SAR Test. 5.11 Bioelectromagnetic. 5.12 Helix Antennas. 5.13 Multiple-Port Scan Problems. 5.14 Antenna Array. 5.15 Multiscale Problem. References. Exercises. 6 Comprehensive Consideration for FDTD Simulation. 6.1 Compute Resource Estimation. 6.2 Mesh Design. 6.3 Excitation Design. 6.4 Simulation Termination. 6.5 Parallel Processing Design. References. Exercises. Index. About the Authors.