摘要
将C3I系统实时获取信息、传输信息、处理信息进行态势分析与估计,然后自动决策应用于光电干扰系统软件设计,能大幅度提高光电干扰系统的效能,从而提高战区C3I系统的攻击与防卫效能。首先描述光电干扰系统的功能需求,利用C4ISR与UML体系结构的高层处理过程提出UML建模的框架;接着应用UML遵循RUP的核心思想和基本原则对光电干扰系统软件进行了建模,逐步进行了需求收集、系统分析与系统设计,在每个过程均用一系列UML图来形象化地表示;最后提出了在建模过程中应注意的问题。利用已成为事实上标准并且符合人们思维习惯的UML进行系统建模,开发周期相对短,产品较丰富并且保证了系统开发和维护人员对系统的理解,系统分析、系统设计以及系统维护的一致性,更重要的是模型建立后可直接编程实现。
Photoelectric interferential system can be greatly improved by acquiring, transferring, processing information in real time, and applying status analysis, estimation and auto making-decision of C^3I (Command, Control, Communication, Intelligence)system in its system. Consequently, attacking and defensive efficiency of theater is also improved. Firstly, functional demand of photoelectric interferential system was set forth through C^3I system instance concretely, and the high process of command, control, intelligence, surveillance, reconnaissance and Unified Modeling Language (UML) architecture was utilized. Applying the core ideology and basic principle of RUP (Rational Unified Process) and modeling of C^3I system based on UML in photoelectric interferential system were followed. The requirement of system was gathered, and analysis and design of system were also completed step by step. In every process, a series of UML diagrams were illustrated. Lastly, some problems that should be noticed in the modeling process were put forward. The established model can be coded straightway by making use of UML which has been defacto standard for object-oriented analysis to design model. It can shorten the development cycle, and products are abundant. Moreover it can make system development and maintenance personnel understand the system and ensure the consistency in system analysis and design,
出处
《光电工程》
EI
CAS
CSCD
北大核心
2006年第10期18-22,71,共6页
Opto-Electronic Engineering