[1]冯 珊,郭四海,周凯波.虚拟采办实施全系统全寿命全方位管理的技术需求[J].智能系统学报,2009,4(1):30-43.
FENG Shan,GUO Si-hai,ZHOU Kai-bo.Technological requirements for a simulationbased acquisition system to manage all aspects of a total system’s life cycle[J].CAAI Transactions on Intelligent Systems,2009,4(1):30-43.
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FENG Shan,GUO Si-hai,ZHOU Kai-bo.Technological requirements for a simulationbased acquisition system to manage all aspects of a total system’s life cycle[J].CAAI Transactions on Intelligent Systems,2009,4(1):30-43.
虚拟采办实施全系统全寿命全方位管理的技术需求
《智能系统学报》[ISSN 1673-4785/CN 23-1538/TP] 卷:
4
期数:
2009年第1期
页码:
30-43
栏目:
综述
出版日期:
2009-02-25
- Title:
- Technological requirements for a simulationbased acquisition system to manage all aspects of a total system’s life cycle
- 文章编号:
- 1673-4785(2009)01-0030-14
- Keywords:
- complexity; requirement analysis; conceptual model of mission space; simulation based acquisition; decision and control; artificial Intelligence and computational intelligence; composability
- 分类号:
- TP391
- 文献标志码:
- A
- 摘要:
- 基于仿真的采办系统复杂性决定了它对全系统、全寿命、全方位系统管理的需求.为了开发这样一种复杂管理系统,首先应将管理需求转换成相应的功能,使预期采办对象系统的全寿命过程得以有效实现.为此,对描述问题域的使命空间概念模型CMMS,及对数据、信息、知识、模型进行一体化描述的可扩展标记语言XML和支持组件按需组合型应用开发的可扩展建模与仿真框架XMSF技术体系结构进行了综合论述.详细给出了CMMS的定义、意义、形成、性能要求,并与用户空间概念模型CMUS和综合表示概念模型CMRS一起, 通过软件开发过程模型SDP实现开发与验证的方法.随后,以CMMS产生初始能力文件的过程为例进行了应用分析.在总结了已完成的各项系统前期开发工作基础上,指出为达到可组合性需进一步研究建模与仿真的技术基础,并应将人工智能与计算智能嵌入建模与仿真的应用系统中.
- Abstract:
- This paper proposes that the complexity of a simulationbased acquisition system depends on the management requirements of total system, including all aspects of its whole life cycle. To develop such a complex management system, the first step is to transfer the management requirements into corresponding functions, by which the targeted life cycle procedure of the whole objective system can be carried out effectively. The conceptual model of mission space (CMMS) was applied to problem area description; extensible markup language(XML) was used as a data, information, knowledge and model integrated descriptive standard; the extensible modeling and simulation framework (XMSF) was used for a componentbased, requirements guided system. Composition styles were fully discussed. The research focus was on CMMS and the paper introduces its definition, meaning, formation, performance requirements and applications in detail. Next, a conceptual model of user space (CMUS) and a conceptual model synthetic representation (CMSR), through a software development process (SDP) model, were used along with CMMS to form a development baseline. Afterwards, a case study of CMMS used for producing the initial capability document was evaluated and conclusions made. The technical background of modeling and simulation (M&S) should be further studied for composability access and it was shown that AI and CI capabilities should be embedded into applied M&S systems.
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备注/Memo
收稿日期:2008-07-10.
基金项目:十一五”国家部委预研资助项目(4130400501);国家部委预研重点基金资助项目(40A04050707);国家自然科学重大基金资助项目(79990580).
作者简介:
冯 珊,女,1935年生,教授,博士生导师.主要研究方向为复杂系统建模与仿真、人工智能与计算智能的工程应用及多Agent系统等.多年来主持智能集成系统工程研究室工作,承担国家级自然科学基金及国防预研基金重点科研项目并多次获国家及省部级科技进步奖.发表学术论文160余篇,其中66篇被SCI、EI、ISTP及INSPEC等收录.
郭四海,男,1976年生,博士研究生,主要研究方向为建模与仿真、人工智能技术及虚拟采办决策支持系统等.
周凯波,男,1972年生,副教授,主要研究方向为智能化集成系统.发表学术论文20余篇.
更新日期/Last Update:
2009-03-24