Optimization Methods in Electromagnetic Radiation 2004 Edition Contributor(s): Angell, Thomas S. (Author), Kirsch, Andreas (Author) |
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ISBN: 0387204504 ISBN-13: 9780387204505 Publisher: Springer OUR PRICE: $104.49 Product Type: Hardcover - Other Formats Published: January 2004 Annotation: This book considers problems of optimization arising in the design of electromagnetic radiators and receivers. The authors develop a systematic general theory that can be applied to a wide class of structures. The theory is illustrated with familiar, simple examples and indications of how the results can be applied to more complicated structures. The final chapter introduces techniques from multicriteria optimization in antenna design. The material is intended for a dual audience of mathematicians and mathematically-sophisticated engineers. References to both the mathematics and engineering literature help guide the reader through the necessary mathematical background. |
Additional Information |
BISAC Categories: - Science | Waves & Wave Mechanics - Mathematics | Applied - Science | Physics - Atomic & Molecular |
Dewey: 530.141 |
LCCN: 2003065726 |
Series: Springer Monographs in Mathematics |
Physical Information: 0.84" H x 6.47" W x 9.25" (1.38 lbs) 350 pages |
Descriptions, Reviews, Etc. |
Publisher Description: The subject of antenna design, primarily a discipline within electrical en- neering, is devoted to the manipulation of structural elements of and/or the electrical currents present on a physical object capable of supporting such a current. Almost as soon as one begins to look at the subject, it becomes clear that there are interesting mathematical problems which need to be addressed, in the ?rst instance, simply for the accurate modelling of the electromagnetic ?elds produced by an antenna. The description of the electromagnetic ?elds depends on the physical structure and the background environment in which thedeviceistooperate. It is the coincidence of a class of practical engineering applications and theapplicationofsomeinterestingmathematicaloptimizationtechniquesthat is the motivation for the present book. For this reason, we have thought it worthwhile to collect some of the problems that have inspired our research in appliedmathematics, andtopresenttheminsuchawaythattheymayappeal to two di?erent audiences: mathematicians who are experts in the theory of mathematical optimization and who are interested in a less familiar and importantareaofapplication, andengineerswho, confrontedwithproblemsof increasing sophistication, are interested in seeing a systematic mathematical approach to problems of interest to them. We hope that we have found the right balance to be of interest to both audiences. It is a di?cult task. Our ability to produce these devices at all, most designed for a part- ular purpose, leads quite soon to a desire to optimize the design in various ways. The mathematical problems associated with attempts to optimize p- formance can become quite sophisticated even for simple physical structur |