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KADLEC, P. RAIDA, Z.
Original Title
Multi-objective Design of EM Components
Type
book chapter
Language
English
Original Abstract
Design of EM components is usually very demanding task. It comprises setting of large number of variables. With increasing number of variables, the number of possible combinations increases exponentially. Therefore, the use of global stochastic optimizers became essential. Use of multi-objective optimizers such as MOSOMA (Multi-Objective Self-Organizing Migrating Algorithm) gives the user extra knowledge about the solved problem and its contradictory requirements. In this chapter, applications of MOSOMA for solution of problems from electromagnetics are first briefly reviewed. Then, three applications are discussed more in detail: design of Yagi-Uda antenna array, design of dielectric layered filter and control of adaptive beamforming in time domain of slotted antenna array. Results of MOSOMA are compared with previously published solutions. The possibility how to treat problems having discrete decision space is discussed here.
Keywords
MOSOMA, Multiobjective Optimization, Design, Electromagnetics
Authors
KADLEC, P.; RAIDA, Z.
Released
9. 2. 2016
Publisher
Springer International Publishing
ISBN
978-3-319-28161-2
Book
Self-Organizing Migrating Algorithm Methodology and Implementation
Edition
Studies in Computational Intelligence
Pages from
105
Pages to
119
Pages count
15
URL
http://link.springer.com/chapter/10.1007/978-3-319-28161-2_5
BibTex
@inbook{BUT121956, author="Petr {Kadlec} and Zbyněk {Raida}", title="Multi-objective Design of EM Components", booktitle="Self-Organizing Migrating Algorithm Methodology and Implementation", year="2016", publisher="Springer International Publishing", series="Studies in Computational Intelligence", pages="105--119", doi="10.1007/978-3-319-28161-2\{_}5", isbn="978-3-319-28161-2", url="http://link.springer.com/chapter/10.1007/978-3-319-28161-2_5" }