Journal
IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION
Volume 53, Issue 1, Pages 356-371Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TAP.2004.838800
Keywords
antenna arrays; antenna radiation patterns; genetic algorithms; optimization methods; phased arrays
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Genetic algorithms, are commonly used to solve many optimization and synthesis problems. An important issue facing the user is the selection of genetic algorithm parameters, such as mutation rate mutation range, and number of crossovers. This paper demonstrates a real-valued genetic algorithm that simultaneously adapts several such parameters during the optimization process. This adaptive algorithm is shown to outperform its static counterparts when used to synthesize the phased array weights to satisfy specified far-field sidelobe constraints, and can perform amplitude-only, phase-only, and complex weight synthesis. When compared to conventional static parameter implementations, computation time is saved in two, ways: 1), The algorithm converges faster and 2) the need to tune-parameters by hand (generally done by repeatedly running the code with different parameter choices) is greatly reduced. By,requiring less iteration to solve a given, problem, this approach may benefit electromagnetic optimization problems with expensive cost functions, since genetic algorithms generally require many function evaluations to converge. The adaptive process also provides insight into the qualitative importance of parameters, and dynamically adjusting the mutation range is found to be especially beneficial.
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