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eBook Asymptotic and Hybrid Methods in Electromagnetics (Electromagnetics and Radar) download
Engineering
Author: F. Molinet,I. Andronov,D. Bouche
ISBN: 0863414478
Subcategory: Engineering
Pages 262 pages
Publisher The Institution of Engineering and Technology (July 18, 2005)
Language English
Category: Engineering
Rating: 4.8
Votes: 428
ePUB size: 1375 kb
FB2 size: 1633 kb
DJVU size: 1617 kb
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eBook Asymptotic and Hybrid Methods in Electromagnetics (Electromagnetics and Radar) download

by F. Molinet,I. Andronov,D. Bouche


Andronov, D. Bouche F. Molinet. Asymptotic methods provide considerable physical insight and understanding of diffraction mechanisms and are very useful in the design of electromagnetic devices such as radar targets and antennas

Andronov, D. Asymptotic methods provide considerable physical insight and understanding of diffraction mechanisms and are very useful in the design of electromagnetic devices such as radar targets and antennas. However, difficulties can arise when trying to solve problems using multipole and asymoptotic methods together, such as in radar cross section objects

There have been significant developments in the field of numerical methods for diffraction problems in recent years. Read instantly in your browser. Asymptotic and Hybrid Methods in Electromagnetics (Electromagnetics and Radar)

There have been significant developments in the field of numerical methods for diffraction problems in recent years. Asymptotic and Hybrid Methods in Electromagnetics (Electromagnetics and Radar). by F. Molinet (Author), I. Andronov (Author), D. Bouche (Author) & 0 more. ISBN-13: 978-0863414473.

Andronov, D. However, difficulties can arise when trying to solve problems using multipole and asymoptotic methods together, such as in radar cross section objects

Asymptotic methods provide considerable physical insight and understanding of diffraction mechanisms and are very useful in the design of electromagnetic devices such as radar targets and antennas.

Asymptotic methods provide considerable physical insight and understanding of diffraction mechanisms and are very useful in the design of electromagnetic devices such as radar targets and antennas. However, difficulties can arise when trying to solve problems using multipole and asymoptotic methods together, such as in radar cross section objects.

Start by marking Asymptotic and Hybrid Methods in Electromagnetics  . Furthermore, very low Radar Cross Section objects are often difficult to compute using multiple methods.

Start by marking Asymptotic and Hybrid Methods in Electromagnetics as Want to Read: Want to Read savin. ant to Read. Finally, objects that are very large in terms of wavelength, but with complicated details, are still a challenge both for asymptotic and numerical methods.

Frederic Molinet (author), I. Andronov (author), Daniel Bouche (author). However, the importance of asymptotic methods should not be overlooked.

Asymptotic and Hybrid Methods in Electromagnetics - Electromagnetics and Radar (Hardback). Frederic Molinet (author), I. Not only do they provide considerable physical insight into diffraction mechanisms, and can therefore aid the design of electromagnetic devices such as radar targets and antennas, some objects are still too large in terms of wavelengths to fall in the realm of numerical methods.

Molinet, F, Andronov, IV & Bouche, D 2005, Asymptotic and hybrid methods in electromagnetics. Institute of Electrical and Electronics Engineers In. 2005. Institute of Electrical and Electronics Engineers Inc. Asymptotic and hybrid methods in electromagnetics. Molinet, . Andronov, . Bouche, D. T1 - Asymptotic and hybrid methods in electromagnetics. AU - Molinet, F. AU - Andronov, . AU - Bouche, D. Py - 2005.

The asymptotic methods provide closed form expansions for the diffracted fields and are also useful for eliciting . One of the principal objectives of this book is to discuss the different asymptotic methods in a unified manner.

The asymptotic methods provide closed form expansions for the diffracted fields and are also useful for eliciting physical interpretations of the various diffraction phenomena. Although the book contains explicit formulas for computing the field diffracted by conducting or dielectric-coated objects, it also provides the mathematical foundations of the different methods and explains how they are interrelated.

However, the importance of asymptotic methods should not be overlooked.

Asymptotic Methods in Electromagnetics. The asymptotic methods not only provide closed form expansions for the diffracted fields, but they are also useful for eliciting physical interpretations of the various diffraction phenomena.

There have been significant developments in the field of numerical methods for diffraction problems in recent years, and as a result, it is now possible to perform computations with more than ten million unknowns. However, the importance of asymptotic methods should not be overlooked. Not only do they provide considerable physical insight into diffraction mechanisms, and can therefore aid the design of electromagnetic devices such as radar targets and antennas, some objects are still too large in terms of wavelengths to fall in the realm of numerical methods. Furthermore, very low Radar Cross Section objects are often difficult to compute using multiple methods. Finally, objects that are very large in terms of wavelength, but with complicated details, are still a challenge both for asymptotic and numerical methods. The best, but now widely explored, solution for these problems is to combine various methods in so called hybrid methods.

Asymptotic and Hybrid Methods in Electromagnetics is based on a short course, and presents recent developments in the field.