Abstract
Introduction:Multiposition radar systems demand that their elements are arranged optimally from the viewpoint of the desired quality parameters. To solve this problem, the space structure of the system should be optimized, with the optimality criterion preliminarily defined. Purpose: This study searches for the optimal arrangement of elements in a multiposition radar system with an uncooperative illumination source, which would have the best quality parameter value among several options for the space structure. Results: Full enumeration method helped to obtain an algorithm of space structure optimization for a multiposition radar system. The number of variants was specified, and the space structure was optimized for a multiposition radar system with an uncooperative illumination source and two receiving stations. The location points of the receiving stations were specified, providing the maximum value of the target function which was the cross section of the working zone with preset limits for different heights of the target flight. The algorithm efficiency is assessed by the value of the working zone increase coefficient.
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