熵理论在舰船作战系统中的应用研究

Research on application of entropy theory in warship combat system

随着军事科技的飞速发展,现代化海军舰船的信息化程度、打击精度和自动化水平有了大幅提高。舰船作战系统包括火炮、水下防御、指挥决策和雷达等多个模块,由于不同模块的安装位置和精度各不相同,在目标探测时会有一定程度的偏差,进而降低舰船的作战能力。因此,研究舰船作战系统的整体稳定性,对作战系统进行精度修正和校核有重要作用。熵理论是一种表征物质系统能量盈亏程度的理论,对改善系统的稳定性和精度控制有重要意义。本文系统的介绍了熵理论的原理,并结合熵理论,深入研究了军事舰船作战系统的精度控制和信息驱动等问题。

With the rapid development of military science and technology, the degree of informatization, attack accuracy and automation of modern naval ships have been greatly improved. Naval combat system including artillery, underwater defense, command decision and radar and other modules, due to the installation position and the accuracy of different modules in different target detection will have a certain degree of deviation, thereby reducing the ship's combat capability. Therefore, the study of the overall stability of the ship combat system plays an important role in the precision correction and verification of the combat system. Entropy theory is a theory of representing the degree of energy gain and loss of the material system, which is of great significance for improving the stability and precision control of the system. In this paper, the principle of entropy theory is introduced, and the precision control and information drive of military ship combat system are deeply studied with the entropy theory.