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Higher-Order Techniques in Computational Electromagnetics - Roberto D. Graglia, Andrew F. Peterson

Higher-Order Techniques in Computational Electromagnetics

Buch | Hardcover
408 Seiten
2015
SciTech Publishing Inc (Verlag)
978-1-61353-016-0 (ISBN)
CHF 106,45 inkl. MwSt
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Higher-Order Techniques in Computational Electromagnetics explains 'high-order' techniques that can significantly improve the accuracy, computational cost, and reliability of computational techniques for high-frequency electromagnetics, such as antennas, microwave devices and radar scattering applications.
Improvements in the accuracy, computational cost, and reliability of computational techniques for high-frequency electromagnetics (including antennas, microwave devices and radar scattering applications) can be achieved through the use of 'high-order' techniques. This book outlines these techniques by presenting high-order basis functions, explaining their use, and illustrating their performance. The specific basis functions under consideration were developed by the authors, and include scalar and vector functions for use with equations such as the vector Helmholtz equation and the electric field integral equation.


The book starts by considering the approximation of scalar functions, and explores the error in some of those representations. Singular functions (those that are unbounded) are also considered, since these often arise in practical EM problems. The authors then discuss the approximation of vector functions, and summarize the various classes of vector basis functions that have been used by the professional community. Following this, they present higher-order basis functions for the most common cell shapes used in finite element analysis procedures. Finally, they consider some of the implementation details associated with the use of these functions for integral equation/method of moments formulations and differential equation/finite element method approaches.


This book provides an essential introduction to these techniques for researchers, graduate students and practicing professionals in the discipline of computational electromagnetics.

Roberto D. Graglia is a Professor of Electrical Engineering at the Department of Electronics and Telecommunications, Polytechnic of Turin, Italy. His interests include numerical methods for highand low-frequency electromagnetics, theoretical and computational aspects of scattering and interactions with complex media, waveguides, antennas, electromagnetic compatibility, and low frequency phenomena. Andrew F. Peterson is a Professor at the School of Electrical and Computer Engineering at the Georgia Institute of Technology, Atlanta. His interests include electromagnetic field theory and computational electromagnetics, with emphasis on the development of computational techniques for electromagnetic scattering, antennas, microwave devices, and electronic packaging applications.

Chapter 1: Interpolation, Approximation, and Error in One Dimension
Chapter 2: Scalar Interpolation in Two and Three Dimensions
Chapter 3: Representation of Vector Fields in Two and Three Dimensions Using Low Degree Polynomials
Chapter 4: Interpolatory Vector Bases of Arbitrary Order
Chapter 5: Hierarchical Bases
Chapter 6: The Numerical Solution of Integral and Differential Equations
Chapter 7: An Introduction to High Order Bases for Singular Fields

Reihe/Serie Electromagnetic Waves
Verlagsort New York
Sprache englisch
Maße 178 x 254 mm
Themenwelt Naturwissenschaften Physik / Astronomie Elektrodynamik
Technik Elektrotechnik / Energietechnik
ISBN-10 1-61353-016-1 / 1613530161
ISBN-13 978-1-61353-016-0 / 9781613530160
Zustand Neuware
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