Abstract
An optimization approach based on minimum deployment cost is proposed to solve the cost-effectiveness problem of deployment network for multistatic radar. The width equipartition barrier is adopted in the deployment strategy,and an optimal model is proposed based on the optimum condition of one deployment line. In order to solve the optimal model,the exhaustive algorithm is introduced to determine the deployment parameters for every possible barrier width. Considering that the unit cost of a transmitter is greater than that of a receiver,the optimum deployment cost and corresponding deployment parameters can be found by minimizing the deployment cost. To decrease the calculated amount of the algorithm, the search scope of exhaustive search is reduced by theoretical demonstration. Simulated results indicate that, compared with the existing similar approach, the proposed approach is used to reduce the deployment cost, usage quantity of transmitters and calculated mount, and make engineering more economical and keep safe in electronic warfare.
Key words
multistaticradar /
deploymentoptimization /
cost-effectivenessratio /
barriercoverage /
deploymentcost
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LI Haipeng, FENG Dazheng, ZHOU Yongwei, DONG Pukao.
Optimization Approach of the Deployment Network for Multistatic Radar. Acta Armamentarii. 2021, 42(3): 563-571 https://doi.org/10.3969/j.issn.1000-1093.2021.03.012
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