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Informationen zum Autor Sergey Yuferev was born in St. Petersburg, Russia, in 1964. He received his MSc in computational fluid mechanics from St. Petersburg Technical University, St. Petersburg, in 1987, and his Ph.D. in computational electromagnetic from the A.F. Ioffe Institute, St. Petersburg, in 1992. From 1987 to 1998, he worked at with the Dense Plasma Dynamics Laboratory, A.F. Ioffe Institute. From 1999 to 2000, he was a visiting associate professor at the University of Akron, Akron, Ohio. Since 2000, he has been with the Nokia Corporation, Tampere, Finland. His current research interests include numerical and analytical methods of computational electromagnetics and their application to electromagnetic compatibility and electromagnetic interference problems of mobile phones. Nathan Ida is currently a distinguished professor of electrical and computer engineering at the University of Akron, Akron, Ohio. He teaches electromagnetics, antenna theory, electromagnetic compatibility, sensing and actuation, and computational methods and algorithms. His current research interests include numerical modeling of electromagnetic fields, electromagnetic wave propagation, theoretical issues in computation, and nondestructive testing of materials at low and microwave frequencies as well as in communications, especially, in low-power remote control and wireless sensing. He has published extensively on electromagnetic field computation, parallel and vector algorithms and computation, nondestructive testing of materials, surface impedance boundary conditions, and other topics. He is the author of three books and co-author of a fourth. Dr. Ida is a fellow of the IEEE and the American Society of Nondestructive Testing. Klappentext Taking the mystery out of surface impedance boundary conditions (SIBCs)! this book provides an understanding of SIBCs that helps practitioners to select! use! and develop impedance boundary conditions for their own applications. It presents theoretical arguments and mathematical relationships! but the focus of the text remains practical. The book includes well-known numerical techniques and formulations of SIBCs and demonstrates implementation in new or existing code. Discussing SIBCs using a comprehensive approach! the authors provide simple decision tools that allow readers to decide if and how an SIBC can be used and presents theoretical and experimental validation of the proposed SIBCs. Zusammenfassung Provides an understanding that helps practitioners select, use, and develop Surface Impedance Boundary Conditions (SIBC) for their own applications. This book not only outlines the need for SIBC but also offers a simple, systematic method for constructing SIBC of any order based on a perturbation approach. Inhaltsverzeichnis Classical Surface Impedance Boundary Conditions. General Perturbation Approach to Derivation of Surface Impedance Boundary Conditions. SIBCs in Terms of Various Formalisms. Calculation of the Electromagnetic Field Characteristics in the Conductor’s Skin Layer. Derivation of SIBCs for Nonlinear and Nonhomogeneous Problems. Implementation of SIBCs for the Boundary Integral Equation Method: Low-Frequency Problems. Implementation of SIBCs for the Boundary Integral Equation Method: High-Frequency Problems. Implementation of SIBCs for Volume Discretization Methods. Application and Experimental Validation of the SIBC Concept. Appendix A: Review of Numerical Methods. Index. ...
