Computational Methods for Electromagnetics - Couverture rigide

Quatrième de couverture

Electrical Engineering Computational Methods for Electromagnetics Avolume in the IEEE/OUP Series on Electromagnetic Wave Theory DonaldG. Dudley, Series Editor Computational Methods for Electromagneticsis an indispensable resource for making efficient and accurateformulations for electromagnetics applications and their numericaltreatment. Employing a unified and coherent approach that isunmatched in the field, the authors detail both integral anddifferential equations using the method of moments andfinite–element procedures. In addition, readers will gain athorough understanding of numerical solution procedures. Topicscovered include:

• Two– and three–dimensional integral equation/method–of–momentsformulations
• Open–region finite–element formulations based on the scalar andvector Helmholtz equations
• Finite difference time–domain methods
• Direct and iterative algorithms for the solution of linearsystems
• Error analysis and the convergence behavior of numericalresults
• Radiation boundary conditions
• Acceleration methods for periodic Green’s functions
• Vector finite elements

Detail is provided to enable the reader to implement concepts insoftware and, in addition, a collection of related computerprograms are available via the Internet. Computational Methods forElectromagnetics is designed for graduate–level classroom use orself–study, and every chapter includes problems. It will also be ofparticular interest to engineers working in the aerospace, defense,telecommunications, wireless, electromagnetic compatibility, andelectronic packaging industries. About the IEEE/OUP Series onElectromagnetic Wave Theory Formerly the IEEE Press Series onElectromagnetic Waves, this joint series between IEEE Press andOxford University Press offers outstanding coverage of the field,with new titles as well as reprintings and revisions of recognizedclassics that maintain long–term archival significance inelectromagnetic waves and applications. Designed specifically forgraduate students, practicing engineers, and researchers, thisseries provides affordable volumes that explore electromagneticwaves and applications beyond the undergraduate level.

Biographie de l'auteur

About the Authors...
Andrew F. Peterson is associate professor at the School ofElectrical and Computer Engineering at Georgia Institute ofTechnology. His research interests center on the development ofboth integral and differential equation based numerical methods forelectromagnetic applications.
Scott L. Ray is a research scientist at Dow AgroSciences, where healso serves as technical leader for the Applied Statistics Group.He previously contributed to time–domain computationalelectromagnetics at the Lawrence Livermore National Laboratory andwas involved in the development of TSAR, a general–purpose FDTDmodeling system.
Raj Mittra is professor in the Electrical Engineering Departmentand a senior research scientist at the Applied Research Laboratoryof Pennsylvania State University. He has also published over 450journal papers and 25 books or book chapters on various topicsrelated to electromagnetics, antennas, microwaves, and electronicpackaging.