Dynamic soft-kill weapon-target assignment in naval environments

IF 6.7 1区工程技术 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS

Computers & Industrial Engineering Pub Date : 2024-09-26 DOI:10.1016/j.cie.2024.110606

Sadegh Tashakori , Mohammad Ranjbar , Saeed Balochian , Javad Sharif-Razavian , Mahboobeh Peymankar

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引用次数: 0

Abstract

One of the most significant threats faced by ships is anti-ship missiles. Nowadays, these missiles, equipped with diverse guidance systems, can locate their trajectory and attack the ship. Consequently, ships need to utilize their weapons to attempt to neutralize these threats. This article aims to develop dynamic assignment algorithms to assign a ship’s defensive soft-kill weapons to a set of incoming missiles, to minimize the average damage inflicted on the ship. To this end, initially, a binary linear programming model is developed to solve the static weapon-target assignment problem. Subsequently, a simulation–optimization algorithm and a reinforcement learning-based approach, grounded in the value iteration algorithm, are developed to solve the dynamic weapon-target assignment problem. To compare and evaluate the performance of the developed solution methods, we employ a set of randomly generated test instances. Computational results indicate that the reinforcement learning approach, due to its inherent foresight, outperforms the simulation–optimization approach in reducing the inflicted damages. However, in terms of CPU run time, the simulation–optimization approach is more efficient.

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海军环境中的动态软杀伤武器目标分配

反舰导弹是舰船面临的最大威胁之一。如今，这些导弹配备了不同的制导系统，可以确定其轨迹并攻击舰船。因此，舰船需要利用其武器试图消除这些威胁。本文旨在开发动态分配算法，将舰艇的防御性软杀伤武器分配给一组来袭导弹，以尽量减少对舰艇造成的平均伤害。为此，首先开发了一个二元线性规划模型来解决静态武器目标分配问题。随后，在值迭代算法的基础上，开发了一种模拟优化算法和基于强化学习的方法，以解决动态武器目标分配问题。为了比较和评估所开发的解决方法的性能，我们采用了一组随机生成的测试实例。计算结果表明，强化学习方法因其固有的预见性，在减少造成的损失方面优于模拟优化方法。不过，就 CPU 运行时间而言，模拟优化方法更为高效。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Computers & Industrial Engineering 工程技术-工程：工业

CiteScore

12.70

自引率

12.70%

发文量

794

审稿时长

10.6 months

期刊介绍： Computers & Industrial Engineering (CAIE) is dedicated to researchers, educators, and practitioners in industrial engineering and related fields. Pioneering the integration of computers in research, education, and practice, industrial engineering has evolved to make computers and electronic communication integral to its domain. CAIE publishes original contributions focusing on the development of novel computerized methodologies to address industrial engineering problems. It also highlights the applications of these methodologies to issues within the broader industrial engineering and associated communities. The journal actively encourages submissions that push the boundaries of fundamental theories and concepts in industrial engineering techniques.