由于技术的发展,促进了系统的发展,这些系统不受传感器处理能力限制,而受向操作员提供控制和分析的信息量限制.这些系统能力的提高或降低取决于人机接口的设计.技术发展的速度升起要求最短的武器系统研制周期,或适应对快速变化着的威胁环境的需要,这种需求可以利用比较新的软件驱动系统所具有的灵活性来达到.系统操作员接口也必须具有同样的灵活性.海军远距离海上巡逻队利用综合控制板(ICP＇S)来代替(有的及建议的标准按钮和度盘控制板解决了上述的问题.综合控制板包括一个带触敏涂层的小等离子板.这就使得综合控制板起到显示装置和控制装置的双重作用.为了在P—3C飞机上增加声学处理系统和综合新的电子监视测量系统,本文讨论综合控制板的应用,并将这两个系统与利用常规技术的同样系统进行了比较.本文只涉及实际飞行试验中的已有系统.本文描述了这些增添部分的限制并讨论了评价结果.此外还提出了综合控制板的相对优缺点,供将来研制时参考. Due to the advances in technology, systems are being developed that are not limited by the processing power of the sensors but limited by the amount of information that the operator can provide for control and analysis, whose ability to increase or decrease depends on the design of the man-machine interface. The speed of development raises the need for the shortest weapon system development cycle or the need for a rapidly changing threat environment that can take advantage of the newer software-driven system flexibility. The system operator interface must also Has the same flexibility as the Navy’s long-range maritime patrols have replaced the problem with the integrated control board (ICP’s) (some and recommended standard buttons and dial panels solve the problem.) The integrated control panel includes a touch-sensitive Coating the small plasma board.This makes the integrated control panel play a dual role of display devices and control devices.In order to increase the P-3C aircraft acoustic processing system and the integration of new electronic monitoring and measurement system, this article discusses the integrated control panel Application, and compared these two systems with the same system using conventional techniques.This paper only deals with the existing systems in actual flight tests System.This paper describes the limitations of these additions and discusses the evaluation results.It also proposes the relative merits of the integrated control board for future reference.