Abstract
The sensor-weapon–target assignment (S-WTA) problem is a crucial decision issue in C4ISR. The cooperative engagement capability (CEC) of sensors and weapons depends on the S-WTA schemes, which can greatly affect the operational effectiveness. In this paper, a mathematical model based on the synthetical framework of the S-WTA problem is established, combining the dependent and independent cooperative engagement modes of sensors and weapons. As this problem is a complex combinatorial optimization problem, a novel genetic algorithm is proposed to improve the solution of this formulated S-WTA model. Based on the prior knowledge of this problem, a problem-specific population initialization method and two novel repair operators are introduced. The performances of the proposed algorithm have been validated on the known benchmarks. Extensive experimental studies compared with three state-of-the-art approaches demonstrate that the proposed algorithm can generate better assignment schemes for the most of the benchmarks.
Highlights
The sensor-weapon–target assignment (S-WTA) problem, as one of the most important issues in C4ISR [1,2], has attracted great attention in recent years
The sensor–target assignment (STA) and WTA problems have been widely concerned in the previous studies
Few researches have focused on the S-WTA problem
Summary
Xiaoyang Li 1 , Deyun Zhou 1, *, Zhen Yang 1 , Qian Pan 1, * and Jichuan Huang 2. First Military Representative Office of Air Force Equipment Department, People’s Liberation Army. Received: 31 July 2019; Accepted: 7 September 2019; Published: 11 September 2019
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