导弹武器系统时间同步网的综合性能评估方法

何华锋; 王依繁; 何耀民; 苏敬; 韩晓斐

doi:10.7527/S1000-6893.2020.24564

航空学报 >

2021 , Vol. 42 >Issue 6: 324564 - 324564

DOI: https://doi.org/10.7527/S1000-6893.2020.24564

电子电气工程与控制

导弹武器系统时间同步网的综合性能评估方法

何华锋 ,
王依繁 ,
何耀民 ,
苏敬 ,
韩晓斐

展开

火箭军工程大学导弹工程学院, 西安 710025

收稿日期: 2020-07-22

修回日期: 2020-08-10

网络出版日期: 2020-09-02

收起

Comprehensive performance evaluation method for time synchronization network of missile weapon system

HE Huafeng ,
WANG Yifan ,
HE Yaomin ,
SU Jing ,
HAN Xiaofei

Expand

College of Missile Engineering, Rocket Force University of Engineering, Xi'an 710025, China

Received date: 2020-07-22

Revised date: 2020-08-10

Online published: 2020-09-02

Fold

摘要

针对导弹武器系统时间同步网（MWSTSN）现有评估方法不全面、不客观等问题，提出了一种基于权系数优化的导弹武器系统时间同步网的综合性能评估方法。首先，基于时间同步网的工作流程与系统结构，综合分析了影响系统性能的各项指标，建立了导弹武器系统时间同步网性能的评估体系与评估模型。通过构建主、客观指标权重的分配系数最优化模型，利用层次分析法和熵值法对上述指标进行组合赋权，获取具有主、客观特性的组合权重。最后，通过案例验证上述评估过程的有效性，结果表明：该评估体系能够有效反映导弹武器系统时间同步网中各分系统及设备的可用性，并具备可测性和可操作性。

关键词： 时间同步网; 性能评估; 组合赋权; 权重优化; 导弹武器

本文引用格式

何华锋 , 王依繁 , 何耀民 , 苏敬 , 韩晓斐 . 导弹武器系统时间同步网的综合性能评估方法[J]. 航空学报, 2021 , 42(6) : 324564 -324564 . DOI: 10.7527/S1000-6893.2020.24564

Abstract

The current evaluation methods in the time synchronization network of missile weapon systems are incomprehensive and unobjective. This paper proposes a comprehensive performance evaluation method for the time synchronization network of missile weapon systems based on weight coefficient optimization. Firstly, according to the work flow and system structure of the time synchronization network, the indexes affecting the system performance are comprehensively analyzed, and the evaluation system and model of the time synchronization network performance of missile weapon systems are established. On this basis, by constructing the allocation coefficient optimization model of the weights of the main and objective indexes, the combination weights of the above indexes are given by the analytic hierarchy process and the entropy method to obtain the combination weights with the characteristics of the main and objective indexes. Finally, the effectiveness of the above evaluation process is verified through a case study. The results show that the evaluation system can effectively reflect the availability of each subsystem and equipment in the time synchronization network of missile weapon systems with testability and operability.

Key words： time synchronization networks; index systems; combination weighting; weight optimization; missile weapon

参考文献

[1] 奚之飞, 徐安, 寇英信, 等. 基于主成分分析及MPSO-ELM的空战目标威胁评估[J]. 航空学报, 2020, 41(10):323895. XI Z F, XU A, KOU Y X, et al. Target threat assessment in air combat based on principal component analysis and MPSO-ELM algorithm[J]. Acta Aeronautica et Astronautica Sinica, 2020, 41(10):323895(in Chinese).
[2] 李玮, 董绍武, 袁海波, 等. 远距离站间时间同步精度评估[C]//智能信息技术应用学会, 2011:145-148. LI W, DONG S W, YUAN H B, et al. Precision assessment of long-distance time synchronization between stations[C]//Intelligent Information Technology Application Association:Institute for Intelligent Information Technology Applications, 2011:145-148(in Chinese).
[3] 辛洁, 郭睿, 李晓杰, 等. 分布式导航星座自主时间同步性能评估[J]. 测绘通报, 2020(3):73-77. XIN J, GUO R, LI X J, et al. Distributed performance evaluation and autonomous time synchronization of navigation constellation[J]. Bulletin of Surveying and Mapping, 2020(3):73-77(in Chinese).
[4] 张友鹏, 王锋, 张珊, 等. 基于模糊贝叶斯网络的铁路时间同步网可靠性分析[J]. 铁道学报, 2015, 37(5):57-63. ZHANG Y P, WANG F, ZHANG S, et al. Dependability assessment of railway time synchronization network based on fuzzy Bayesian network[J]. Journal of the China Railway Society, 2015, 37(5):57-63(in Chinese).
[5] 张友鹏, 李天娇, 王锋, 等. 基于SPN的铁路时间同步网建模与性能分析[J]. 铁道学报, 2016, 38(10):55-61. ZHANG Y P, LI T J, WANG F, et al. Modeling and performance analysis of railway time synchronization network based on SPN[J]. Journal of the China Railway Society, 2016, 38(10):55-61(in Chinese).
[6] 张友鹏, 李远远. 基于云模型和证据理论的铁路信号系统风险评估[J]. 铁道学报, 2016, 38(1):75-80. ZHANG Y P, LI Y Y. Risk assessment of railway signal system based on cloud model and evidence theory[J]. Journal of the China Railway Society, 2016, 38(1):75-80(in Chinese).
[7] 孟庆操, 杨光. 航母编队防空作战效能评估指标体系构建[J]. 舰船电子工程, 2015, 35(10):1-4,61. MENG Q C, YANG G. Index system design and evaluation for air defense capability of the aircraft carrier formation[J]. Ship Electronic Engineering, 2015, 35(10):1-4,61(in Chinese).
[8] 戴嘉琪, 何华锋, 贺友, 等. 基于过程分析的合成孔径雷达导引头试验鉴定指标体系建立[J]. 飞航导弹, 2018(9):92-96. DAI J Q, HE H F, HE Y, et al. Estabishment of synthetic aperture radar seeker test evaluation index system based on process analysis[J]. Winged Missiles Journal, 2018(9):92-96.
[9] 赵黛岩, 孙剑伟. 星地时间同步任务规划综合评价技术研究[J]. 软件, 2014(1):60-64. ZHAO D Y, SUN J W. Research on comprehensive evaluation technology of time synchronization mission scheduling[J]. Software, 2014(1):60-64(in Chinese).
[10] CAO J X, LU J P. Genetic algorithm-Bayes BP neural network fitting titration of organic acids in molasses[J]. Chinese Journal of Analytica Chemistry, 2011, 39(5):743-747.
[11] 何华锋, 何耀民, 徐永壮. 基于改进型BP神经网络的导引头测高性能评估[J]. 系统工程与电子技术, 2019, 41(7):1544-1550. HE H F, HE Y M, XU Y Z. High performance evaluation of seeker measurement based on improved BP neural network[J]. Systems Engineering and Electronics, 2019, 41(7):1544-1550(in Chinese).
[12] 甘明庆, 陈波, 姚浩, 等. 智能变电站时间同步系统可靠性分析与评估[J]. 自动化与仪器仪表, 2016(9):160-164. GAN M Q, CHEN B, YAO H, et al. Reliability analysis and evaluation of intelligent substation time synachroniaztion systerm[J]. Automation & instrumentation, 2016(9):160-164(in Chinese).
[13] 崔建国, 林泽力, 吕瑞, 等. 基于模糊灰色聚类和组合赋权法的飞机健康状态综合评估方法[J]. 航空学报, 2014, 35(3):764-772. CUI J G, LIN Z L, LV R, et al. Comprehensive assessment method of aircraft health status based on fuzzy gray clustering and combination weighting[J]. Acta Aeronautica et Astronautica Sinica, 2014, 35(3):764-772(in Chinese).
[14] 董宝润. 时间统一系统[M]. 北京:国防工业出版社, 2003:9. DONG B R. Timing system[M]. Beijing:National Defence Industry Press, 2003:9(in Chinese).
[15] 漆贯荣. 时间科学基础[M]. 北京:高等教育出版社, 2006:4. QI G R. Fundamentals of time science[M]. Beijing:Higher Education Press, 2006:4(in Chinese).
[16] 李孝辉, 杨旭海. 时间频率信号的精密测量[M]. 北京:科学出版社, 2010:3. LI X H, YANG X H. Precision measurement of time frequency signals[M].Beijing:Science Press, 2010:3(in Chinese).
[17] 杨俊, 陈建云, 明德祥, 等. 卫星导航终端测试评估技术与应用[M]. 北京:国防工业出版社, 2015:5. YANG J, CHEN J Y, MING D X, et al. Technology and application of satellite navigation terminal test and evaluation[M]. Beijing:National Defense Industry Press, 2015:5(in Chinese).
[18] 肖勇, 党三磊, 张思建. 电能计量设备故障分析与可靠性技术[M]. 北京:中国电力出版社, 2014:12. XIAO Y, DANG S L, ZHANG S J. Power metering equipment fault analysis and reliability analysis technology[M]. Beijing:China Electric Power Press, 2014:12(in Chinese).
[19] LV F, WEN C, BAO Z, et al. Fault diagnosis based on deep learning[C]//2016 American Control Conference (ACC). Piscataway:IEEE Press, 2016:6851-6856.
[20] 黄吉传, 周德云. 无人机协同作战效能评估指标体系设计与分析[J]. 西安工业大学学报, 2020, 40(1):38-44. HUANG J C, ZHOU D Y. Design and analysis of an evaluation index system for UAV cooperative combat effectiveness[J]. Journal of Xi'an Technological University, 2020, 40(1):38-44(in Chinese).
[21] 许树柏. 实用决策方法:层次分析法原理[M]. 天津:天津大学出版社, 1988. XU S B. Practical decision method:Analytic hierarchy process principle[M]. Tianjing:Tianjing University Press, 1988(in Chinese).
[22] 杨宇. 多指标综合评价中赋权方法评析[J]. 统计与决策, 2006(13):17-19. YANG Y. Evaluation and analysis of weighting method in multi-index comprehensive evaluation[J]. Statistics and Decision, 2006(13):17-19(in Chinese).
[23] WANG J W, NI Q Y, LIU G J, et al. Image splicing detection based on convolutional neural network with weight combination strategy[J]. Journal of Information Security and Applications, 2020, 54:102523.
[24] 兰丽, 张友鹏. 基于组合赋权的铁路时间同步网云评估模型及应用[J]. 安全与环境学报, 2017,17(4):1237-1243. LAN L, ZHANG Y P. A cloud evaluation model for the railway transpertation time control synchronization network based on the combination with weight and its application[J]. Jounal of Safety and Environment, 2017,17(4):1237-1243(in Chinese).
[25] 伍文, 孟相如, 马志强, 等. 基于组合赋权的网络可生存性模糊综合评估[J]. 系统工程与电子技术, 2013, 35(4):786-790. WU W, MENG X R, MA Z Q, et al. Fuzzy comprehensive evaluation of network survivability based on combinatorial weight[J]. Systems Engineering and Electronics, 2013, 35(4):786-790(in Chinese).
[26] 程呈, 高敏, 程旭德, 等. 基于组合赋权的反坦克导弹武器系统作战效能评估研究[J]. 系统工程理论与实践, 2018, 38(1):241-251. CHENG C, GAO M, CHENG X D, et al. Research on operational efficiency evaluation of anti-tank missile weapon system based on combination weighting[J]. Systems Engineering-Theory & Pratice, 2018, 38(1):241-251(in Chinese).
[27] 刘群, 冯长焕. 一种新的最优权系数组合赋权法[J]. 兰州文理学院学报(自然科学版), 2015, 29(6):1-4. LIU Q, FENG C H. A new combination weighting method with optimal coefficient[J]. Journal of Lanzhou University of Arts and Science (Natural Sciences Edition), 2015, 29(6):1-4(in Chinese).

Options

文章导航

模态框（Modal）标题

摘要

本文引用格式

Abstract

参考文献