[1] 甘茂治, 康建设, 高崎. 军用装备维修工程学[M]. 第2版. 北京:国防工业出版社, 2005:1. GAN M Z, KANG J S, GAO Q. Military equipment maintenance engineering[M]. 2nd ed. Beijing: National Defense Industry Press, 2005: 1. (in Chinese) [2] 杜晓明, 古平, 高鲁. 基于仿真的装备保障效能评估[M]. 北京:国防工业出版社, 2017:118. DU X M, GU P, GAO L. Effectiveness evaluation of equipment support based on simulation[M]. Beijing: National Defense Industry Press, 2017: 118. (in Chinese) [3] 韩坤, 何成铭, 刘维维, 等.以系统效能为目标的装甲车辆可靠性、维修性、保障性和测试性权衡分析[J]. 兵工学报, 2014, 35(2): 268-272. HAN K, HE C M, LIU W W, et al. Trade-off analysis of reliability/maintenanability/supportability/testability of armored vehicle based on system effectiveness[J]. Acta Armamentarii, 2014, 35(2): 268-272.(in Chinese) [4] 萧元星, 毛和瑞.系统效能建模方法综述[J]. 兵工学报, 1997, 18(3): 256-259. XIAO Y X, MAO H R. An overview of modeling methods for the representation of system effectiveness[J]. Acta Armamentarii, 1997, 18(3): 256-259.(in Chinese) [5] GL T, STEWART T J, HANNE T. Multi-criteria decision making: advances in MCDM models, algorithms, theory and applications[J]. Interfaces, 2009, 31(3):118-119. [6] 阚于龙. 舰船维修保障系统效能评估及优化决策[D]. 武汉: 华中科技大学, 2007. KAN Y L. Warship maintenance system effectiveness evaluation and optimization decision[D]. Wuhan: Huazhong University of Science and Technology, 2007. (in Chinese) [7] 穆富岭, 武昌, 吴德伟.维修保障系统效能评估中的变权综合法初探[J]. 系统工程与电子技术, 2003, 25(6): 693-696. MU F L, WU C, WU D W. Study on the synthetic method of variable weight of effectiveness evaluation of maintenance support system[J]. System Engineering and Electronics, 2003, 25(6): 693-696. (in Chinese) [8] WEI X L, CHEN Z W, ZHOU Z Z. Fuzzy comprehensive evaluation on the quality of vehicle equipment maintenance based on membership degree transformation algorithm[C]∥Proceedings of the Symposium on Advances in Electronic Engineering, Communication and Management. Berlin, Germany:Springer, 2012:453-458. [9] 杨懿, 刘涵, 武昌, 等. 维修保障系统效能的分形评估算法研究[J]. 系统仿真学报, 2006, 18(10):2925-2928. YANG Y, LIU H, WU C, et al. Study of effectiveness evaluation of maintenance support system based on fractal conception[J]. Journal of System Simulation, 2006, 18(10):2925-2928. (in Chinese)
[10] 艾宝利, 陈天平, 武昌. 基于扩展贝叶斯理论的装备维修保障系统效能评估[J]. 海军工程大学学报, 2011, 23(3):44-48. AI B L, CHEN T P, WU C. Effectiveness evaluation of maintenance support system based on patulous Bayes theory[J]. Journal of Naval University of Engineering, 2011, 23(3):44-48. (in Chinese) [11] 陈晓, 杨懿, 毕一鸣. 基于集对分析的维修保障系统效能评估[J]. 火力与指挥控制, 2009, 34(1): 75-78. CHEN X, YANG Y, BI Y M. Study of effectiveness evaluation of maintenance support system based on set pair analysis[J]. Fire Control & Command Control, 2009, 34(1): 75-78. (in Chinese) [12] 王永攀, 杨江平, 王敏, 等.雷达维修保障系统效能的云重心评估[J].火力与指挥控制, 2015, 40(3): 56-59. WANG Y P, YANG J P, WANG M, et al. Efficiency evaluation of radar maintenance support system based on cloud gravity center assessment[J]. Fire Control & Command Control, 2015, 40(3): 56-59. (in Chinese) [13] LI D Y, LIU C Y, GAN W Y. A new cognitive model: cloud model[J]. International Journal of Intelligent Systems, 2009, 24(3): 357- 375. [14] WANG G Y, XU C L, LI D Y. Generic normal cloud model[J]. Information Sciences, 2014, 280(1): 1-15. [15] PENG L H, ZHANG L W, JI B M, et al. Maintenance perfor-mance evaluation based on matter element analysis of aviation maintenance[C]∥Proceedings of the 1st Symposium on Aviation Maintenance and Management. Berlin, Germany:Springer, 2014: 657-664. [16] 米传民, 刘思峰, 党耀国, 等. 灰色熵权聚类决策方法研究[J]. 系统工程与电子技术, 2006, 28(12):1823-1825. MI C M, LIU S F, DANG Y G, et al. Study on grey entropy weight clustering decision-making[J]. Systems Engineering and Electronics, 2006, 28(12):1823-1825. (in Chinese) [17] LIU S F, YANG Y J, XIE N M, et al. New progress of grey system theory in the new millennium[J]. Grey Systems Theory & Application, 2016, 6(1):2-31. [18] 陈玥. 基于灰色系统理论和云模型的反精确洪水灾害分析[D]. 武汉: 华中科技大学, 2010. CHEN Y. Grey system theory and cloud model based anti-accuracy analysis of flood disaster[D]. Wuhan: Huazhong University of Science and Technology, 2010. (in Chinese) [19] 王洪利, 冯玉强. 基于灰云的改进白化模型及其在灰色决策中的应用[J]. 黑龙江大学自然科学学报, 2006,23(6):740-745. WANG H L, FENG Y Q. Ablation model based on the improved gray cloud and its applicant in the gray decision[J]. Journal of Natural Science of Heilongjiang University, 2006, 23(6): 740-745. (in Chinese) [20] 王双川, 吕瑞强, 胡恩勇, 等. 基于三角白化权函数的装备维修合同商服务质量评估[J]. 装甲兵工程学院学报, 2016, 30(5):20-24. WANG S C, L R Q, HU E Y, et al. Service quality evaluation of equipment maintenance contractor based on triangle whiten weight function[J]. Journal of Academy of Armored Force Engineering, 2016, 30(5):20-24. (in Chinese) [21] 彭绍雄, 王海涛, 邹强. 潜空导弹武器系统作战效能评估模型[J]. 系统工程理论与实践, 2015, 35(1):267-272. PENG S X, WANG H T, ZOU Q. Combat effectiveness evaluation model of submarine-to-air missile weapon system[J]. Systems Engineering - Theory & Practice, 2015, 35(1):267-272.(in Chinese) [22] 王雁凌, 张雪佼, 阎敬民. 基于变权灰色云模型的风电场并网技术性综合评价[J]. 电网技术, 2013, 37(12):3546-3551. WANG Y L, ZHANG X J, YAN J M. Weight-varying gray cloud model based comprehensive evaluation on technical performance of overall grid-integration of wind farm[J]. Power System Technology, 2013, 37(12): 3546-3551. (in Chinese) [23] 王斐, 梁晓庚, 郭超, 等. 灰云熵权聚类的制导仿真系统可信度评估[J]. 系统仿真学报, 2015, 27(8):1703-1707. WANG F, LIANG X G, GUO C, et al. Guidance simulation credibility evaluation based on clustering with grey cloud and entropy weight[J]. Journal of System Simulation, 2015, 27(8):1703-1707. (in Chinese) [24] 蔡红梅, 陈剑勇, 苏浩益. 基于灰云模型的电力变压器故障诊断[J]. 电力系统保护与控制, 2012, 40(12):151-155. CAI H M, CHEN J Y, SU H Y. Fault diagnosis of power transformer based on grey cloud model[J]. Power System Protection and Control, 2012, 40(12):151-155. (in Chinese) [25] 龚慧佳, 轩少永, 胡甚平, 等. 基于灰云模型的海上交通系统风险推理方法[J]. 中国航海, 2016, 39(2):87-91. GONG H J, XUAN S Y, HU S P, et al. Reasoning method for risk in marine traffic system based on grey cloud model[J]. Na-vigation of China, 2016, 39(2):87-91. (in Chinese) [26] LI T, YANG X. Risk assessment model for water and mud inrush in deep and long tunnels based on normal grey cloud clustering method[J]. KSCE Journal of Civil Engineering, 2018, 22(5):1991-2001. [27] 李德毅, 刘常昱. 论正态云模型的普适性[J]. 中国工程科学, 2004, 6(8):28-34. LI D Y, LIU C Y. Study on the universality of the normal cloud model[J]. Strategic Study of CAE, 2004, 6(8):28-34. (in Chinese) [28] MA J, FAN Z P, HUANG L H. A subjective and objective integrated approach to determine attribute weights[J]. European Journal of Operational Research, 2009, 112(2):397-404. [29] BEVILACQUA M, BRAGLIA M. The analytic hierarchy process applied to maintenance strategy selection[J]. Reliability Engineering & System Safety, 2000, 70(1):71-83. [30] 张媛, 刘文彪, 张立民. 基于主客观综合赋权的CGF态势评估建模研究[J]. 系统工程与电子技术,2013, 35(1):85-90. ZHANG Y, LIU W B, ZHANG L M. Situation assessment modeling for CGF based on the subjective and objective integrated weight[J]. Systems Engineering and Electronics, 2013, 35(1):85-90. (in Chinese)
第40卷第6期 2019 年6月兵工学报ACTA ARMAMENTARIIVol.40No.6Jun.2019
|