Discussion about Construction of Organization and Execution System Architecture for UUV Test and Evaluation
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摘要: 在分析无人水下航行器(UUV)试验与评估需求的基础上, 按照“开放、共享、权威、高效”的原则, 提出构建以试验评估中心为主体, 试验与评估系统为核心, 面向数据的流程为主线, 一体化联合试验为主要模式的UUV试验与评估组织执行体系总体构想, 并采用系统工程方法对体系各组成要素的功能、试验与评估指标体系、流程和数据等方面进行了论述, 并给出几点建议, 为推进UUV装备发展提供支持。
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关键词:
- 无人水下航行器(UUV) /
- 试验与评估 /
- 系统工程
Abstract: This paper analyzes the requirements of unmanned undersea vehicle(UUV) test and evaluation, and further presents an overall scheme for constructing an organization and execution system architecture of UUV test and evaluation following the principle of “open, shared, authoritative, and efficient”. The system architecture includes the test and evaluation center, the test and evaluation system, the data-based process, and the integrated joint test mode. The fundamental elements are discussed with system engineering method in terms of the function, specification system of test and evaluation, working process, data, and so on. Moreover, some suggestions about UUV test and evaluation are offered to support the development of UUV equipment.-
Key words:
- unmanned undersea vehicle(UUV) /
- test and evaluation /
- system engineering
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[1] Defense Science Board. Next-Generation Unmanned Undersea Systems[R]. U.S.: Office of the Secretary of Denfense, 2016. [2] Richard R. Peel. National UUV Test and Evaluation Center[R]. Keyport, Washington USA: Naval Undersea Warfare Center (NUWC) Division, 2012. [3] Defense Acquisition University. Test and Evaluation Management Guide[M]. 6thed. Virginia: The Defense Acquisition University Press, 2012. [4] 洛刚, 黄彦昌, 康丽华, 等. 关于推进我军装备一体化试验的思考[J]. 装备学院学报, 2015, 26(4): 120-124.Luo Gang, Huang Yan-chang, Kang Li-hua, et al. Reflection on Facilitation of Integrated Test Mode of the PLA[J]. Journal of Equipment Academy, 2015, 26(4): 120-124. [5] 钱东, 赵江, 杨芸. 军用UUV发展方向与趋势(上)—美军用无人系统发展规划分析解读[J]. 水下无人系统学报, 2017, 25(1): 1-30.Qian Dong, Zhao Jiang, Yang Yun. Development Trend of Military UUV(Ⅰ): A Review of U.S. Military Unmanned System Development Plan[J]. Journal of Unmanned Undersea Systems, 2017, 25(1): 1-30. [6] 杨榜林, 岳全发. 军事装备试验学[M]. 北京: 国防工业出版社, 2002 [7] 张传友, 薄云蛟, 李进. 海军武器装备一体化联合试验体系结构框架及模型总体设计[J]. 装备学院学报, 2014, 25(4):118-123.Zhang Chuan-you, Bo Yun-jiao, Li Jin. General Design of System Framework and Architecture Model of Integrated Joint Test System of System for Navy Weapon Equipment[J]. Journal of Equipment Academy, 2014, 25(4): 118-123. [8] 薛益新, 周玢. 武器装备作战试验鉴定指标体系建立方法[J]. 装备学院学报, 2016, 27(4): 102-107.Xue Yi-xin, Zhou Bin. Establishment Method of Index System for Weapons and Equipments Operational Test and Evaluation[J]. Journal of Equipment Academy, 2016, 27(4): 102-107. [9] 刘仕雷, 柯宏发, 祝冀鲁. 基于系统工程的装备作战试验组织实施流程问题研究[J]. 装备学院学报, 2017, 28(1): 111-117.Liu Shi-lei, Ke Hong-fa, Zhu Ji-lu. System Engineering-based Organization and Implementation Procedure of Equipment Operational Tests[J]. Journal of Equipment Academy, 2017, 28(1): 111-117. [10] 石实, 曹裕华. 美军武器装备体系试验鉴定发展现状及启示[J]. 军事运筹与系统工程, 2015, 9, 29(3): 46-51. [11] 汪建国. 靶场导弹武器装备作战试验条件建设[J]. 国防科技, 2016, 37(1): 114-122.Wang Jian-guo. Building Missile Weapon Equipment Battle Test Condition in the Range[J]. National Defense of Sience & Technology, 2016, 37(1): 114-122.
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