Abstract
The decision of intelligent minefield attacking tank forces is a complex multi-constraint and multi-objective nonlinear optimization problem. Aiming at the common defects of commonly used intelligent algorithms and combining with the characteristics of fireworks algorithm, this paper proposed an adaptive fireworks algorithm to deal with it. In this paper, we first established the mathematical model of this problem and transformed the model into an unconstrained single-objective extremum by using the external penalty function method. Furthermore, the adaptive fireworks algorithm is used to solve the model. In order to verify the superiority of adaptive fireworks algorithm to deal with this problem, experimental results show that the adaptive fireworks algorithm has faster convergence speed and shorter computation time than the other algorithms, and the results can intuitively describe the reasonable task allocation scheme of the complex situation, which provides a foundation for studying the force control.
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Yan, M., Handong, Z. & Wei, Z. Research on Intelligent Minefield Attack Decision Based on Adaptive Fireworks Algorithm. Arab J Sci Eng 44, 2487–2496 (2019). https://doi.org/10.1007/s13369-018-3159-5
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DOI: https://doi.org/10.1007/s13369-018-3159-5