Thinned Array Synthesis Based on Integer Coded Genetic Algorithm

He Xue-Hui; Zhu Kai-Ran; Wu Shun-Jun

doi:10.3724/SP.J.1146.2009.01242

Volume 32 Issue 9

Oct. 2010

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Article Navigation > Journal of Electronics & Information Technology > 2010 > 32(9): 2277-2281

Ren Yu-An, Ruan Gui-Hua. EXPERIMENTAL INVESTIGATION OF THE COPLANAR SLOW WAVE ELECTRODE TYPE POWER TRAVELLING WAVE FET[J]. Journal of Electronics & Information Technology, 1984, 6(3): 242-246.

Citation:

He Xue-Hui, Zhu Kai-Ran, Wu Shun-Jun. Thinned Array Synthesis Based on Integer Coded Genetic Algorithm[J]. Journal of Electronics & Information Technology, 2010, 32(9): 2277-2281. doi: 10.3724/SP.J.1146.2009.01242

Ren Yu-An, Ruan Gui-Hua. EXPERIMENTAL INVESTIGATION OF THE COPLANAR SLOW WAVE ELECTRODE TYPE POWER TRAVELLING WAVE FET[J]. Journal of Electronics & Information Technology, 1984, 6(3): 242-246.

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Thinned Array Synthesis Based on Integer Coded Genetic Algorithm

doi: 10.3724/SP.J.1146.2009.01242

Received Date: 2009-09-18
Rev Recd Date: 2009-12-11
Publish Date: 2010-09-19

Abstract

Abstract

For the issue of thinned array synthesis, an optimized design method of genetic algorithm based on integer code is proposed. By the application of individual description manner using integer coding, the search space is greatly reduced on the premise of elements thinned ratio is maintained constant. Base on the optimal array in elements position distribution, the weight is further optimized with convex optimization, which improves the main-side-ratio of array pattern significantly.The validity and superiority of method is confirmed by the result of the simulation data.
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References(1)

References

Taylor T T. Design of line source antennas for narrow beamwidth and low sidelobes[J].IEEE Transactions on Antennas and Propagation.1960, 8(6):17-22[2]Zhou Y and Ingram M A. Pattern synthesis for arbitrary arrays using an adaptive array method[J].IEEE Transactions on Antennas and and Propagation.1999, 47(5):862-869[3]Wang F, Balakrishnan V, and Zhou Y. Optimal array pattern synthesis using semidefinite programming[J].IEEE Transactions on Signal Processing.2003, 51(5):1172-1183[4]Francisco J and Pena A, et al.. Genetic algorithm in the design and optimization of antenna array pattern[J].IEEE Transactions on Antenna and Propagation.1999, 47(3):506-510[5]张霞，陶海红，廖桂生. 一种任意阵的方向图综合方法[J].电子与信息学报.2008, 30(3):738-741浏览Zhang Xia, Tao Hai-hong, and Liao Gui-sheng. Pattern synthesis method for arbitrary arrays[J].Journal of Electronics Information Technology.2008, 30(3):738-741[6]张霞，陶海红，廖桂生. 基于实数编码遗传算法的方向图模值综合方法[J].系统工程与电子技术，2008, 30(6): 1022-1026.Zhang Xia, Tao Hai-hong, and Liao Gui-sheng. Pattern synthesis with desired magnitude response based on real coded genetic algorithm[J]. Systems Engineering and Electronics, 2008, 30(6): 1022-1026.[7]陈客松，何子述，韩春林. 非均匀线天线阵优化布阵研究[J]. 电子学报. 2006, 34(12): 2263-2267.[8]Chen Ke-song, He Zi-shu, and Han Chun-lin. Research on synthesis of the linear sparse arrays[J]. Acta Electronica Sinica, 2006, 34(12): 2263-2267.[9]Haupt R L. Thinned arrays using genetic algorithms[J]. IEEE Transactions on Antenna and Propagation, 1994, AP-42(7): 993-999.[10]王玲玲，方大纲. 运用遗传算法综合稀疏阵列[J].电子学报, 2003, 31(12A): 2135-2138.Wang Ling-ling and Fang Da-gang. Genetic algorithm for the synthesis of thinned array[J]. Acta Electronica Sinica, 2003, 31(12A): 2135-2138.[11]陈客松，何子述，韩春林. 利用GA实现非对称稀疏线阵旁瓣电平的优化[J].电子与信息学报.2007, 29(4):987-990浏览Chen Ke-song, He Zi-shu, and Han Chun-lin. Sidelobe reduction of asymmetric linear thinned arrays using genetic algorithm[J].Journal of Electronics Information Technology.2007, 29(4):987-990[12]赵光辉，陈伯孝. 基于二次编码的MIMO雷达阵列稀布与天线综合[J]. 系统工程与电子技术. 2008, 30(6): 1032-1036.[13]Zhao Guang-hui and Chen Bai-xiao. Pattern synthesis of antenna array in MIMO radar by using two-layer coding[J]. Systems Engineering and Electronics, 2008, 30(6): 1032-1036.[14]陈客松，何子述，唐海红. 对称线阵的优化稀疏研究[J].电子与信息学报.2009, 31(6):1490-1492浏览Chen Ke-song, He Zi-shu, and Tang Hai-hong. Research on synthesis of symmetrical thinned linear arrays[J].Journal of Electronics Information Technology.2009, 31(6):1490-1492[15] Grant Michael, Boyd Stephen, and Ye Yin-yu. CVX: Matlab software for disciplined Convex programming. Ver.1.2. Available at www.stanford.edu/~boyd/cvx/2009.

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