一个完整的反潜战作战系统综合了反潜战中协同作战的所有设备,即ASW水面舰艇(若有的话,协同作战)的设备、舰载ASW直升机的设备和可能协同作战的海上巡逻飞机的设备。 在每一个平台上,有关的系统包括一些子系统,如主/被动声学系统、非声学系统(雷达、ESM、IR、通信设备,……)、ASW战术决策支援系统和ASW武器控制系统(鱼雷、导弹,……)。 因此,为ASW水面舰艇设计一个有效的C~3I系统意味着要全面考虑各种不同的问题,如: ASW作战要求,这主要取决于地理、政治和战略的各个方面,它能确定系统的总作战效果; 所有技术问题,既包括技术性能问题(探测概率……)又包括系统操作问题(包括人员配备、通信、与总的作战系统的综合),这些问题涉及硬件和软件的实现; 总的成本问题。 下面介绍“汤姆逊-森特拉”水下作战分部在设计这种系统时普遍采用的方法。 A complete anti-submarine warfare operational system integrates all the equipment that is part of an anti-submarine warfare synergy, namely, the equipment of ASW surface ships (if any), the equipment of a carrier-borne ASW helicopter and the equipment of a maritime patrol aircraft that may cooperate . On each platform, the systems involved include subsystems such as primary / passive acoustic systems, non-acoustic systems (radar, ESM, IR, communications equipment, ...), ASW tactical decision support systems and ASW weapon control systems ,missile,……). Therefore, designing an effective C ~ 3I system for ASW surface ships means taking into account a variety of different issues, such as: ASW operational requirements, which depend largely on all aspects of geography, politics and strategy, which determine the total Combat effectiveness; all technical problems, including both technical performance probabilities (probing probabilities ...) and system operational issues (including staffing, communications, and general combat system integration) that involve hardware and software implementation; Cost problem Here’s how the underwater operations division of Thomson-Centrala used to design such a system.