期刊论文详细信息
Metrology and Measurement Systems
Suppressing Side-Lobes of Linear Phased Array of Micro-Strip Antennas with Simulation-Based Optimization
Kozieł Sławomir1  Bekasiewicz Adrian1  Ogurtsov Stanislav1 
[1] Reykjavik University, Engineering Optimization ;
关键词: linear antenna array;    micro-strip antenna array;    phased antenna array;    antenna optimization;    antenna array optimization;    simulation-based optimization;    surrogate model;   
DOI  :  10.1515/mms-2016-0022
来源: DOAJ
【 摘 要 】

A simulation-based optimization approach to design of phase excitation tapers for linear phased antenna arrays is presented. The design optimization process is accelerated by means of Surrogate-Based Optimization (SBO); it uses a coarse-mesh surrogate of the array element for adjusting the array’s active reflection coefficient responses and a fast surrogate of the antenna array radiation pattern. The primary optimization objective is to minimize side-lobes in the principal plane of the radiation pattern while scanning the main beam. The optimization outcome is a set of element phase excitation tapers versus the scan angle. The design objectives are evaluated at the high fidelity level of description using simulations of the discrete electromagnetic model of the entire array so that the effects of element coupling and other possible interaction within the array structure are accounted for. At the same time, the optimization process is fast due to SBO. Performance and numerical cost of the approach are demonstrated by optimizing a 16-element linear array of microstrip antennas. Experimental verification has been carried out for a manufactured prototype of the optimized array. It demonstrates good agreement between the radiation patterns obtained from simulations and from physical measurements (the latter constructed through superposition of the measured element patterns).

【 授权许可】

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