[1] 郝亮亮,张金生,李婷,等.导弹武器模拟训练考评系统设计[J].系统工程与电子技术,2020,42(4):843-850. HAO Liang-liang,ZHANG Jin-sheng,LI Ting,et al.Design of Missile Weapon Simulation Training Evaluation System[J].Systems Engineering and Electronics,2020,42(4):843-850. [2] 高文琦,张复春,王立波,等.飞行训练成绩评估模型的建立与实现[J].电子设计工程,2011,19(24):50-52. GAO Wen-qi,ZHANG Fu-chun,WANG Li-bo.The Establishment and Realization of Flight Training Perfor-mance Evaluation Model[J].Electronic Design Engineering,2011,19(24):50-52. [3] 吴冲华,滕宗平,李颖,等.炮兵指挥系统模拟训练评估模型及其实现方法[J].火力与指挥控制,2011,36(8):141-143. WU Chong-hua,TENG Zong-ping,LI Ying.The Evaluation Model of Simulation Training of Artillery Command System and Its Realization Method[J].Fire Control & Command Control,2011,36(8):141-143. [4] 贺照辉,申正义,许诚.运用BP神经网络的雷达模拟训练考核评估方法[J].现代防御技术,2017,45(1):188-193. HE Zhao-hui,SHEN Zheng-yi,XU Cheng.Evaluation Method of Radar Simulation Training Based on BP Neural Network[J].Modern Defence Technology,2017,45(1):188-193. [5] 叶义成,柯丽华,黄德育.系统综合评价技术及其应用[M].北京:冶金工业出版社,2006:76-90. YE Yi-cheng,KE Li-hua,Huang De-yu.Systematic Comprehensive Evaluation Technology and Its Application[M].Beijing:Metallurgical Industry Press,2006:76-90. [6] 曾雪兰,吉建华,吴小欢.基于相容性指标的聚类分析专家赋权法[J].广西大学学报:自然科学版,2005(4):337-340. ZENG Xue-lan,JI Jian-hua,WU Xiao-huan.Cluster Analysis Expert Weighting Method Based on Compatibility Index[J].Journal of Guangxi University:Natural Science ed,2005(4):337-340. [7] 侯晓东,杨江平,王永攀,等.一种基于改进群组AHP法的指标权重确定方法[J].现代防御技术,2016,44(5):149-154,200. HOU Xiao-dong,YANG Jiang-ping,WANG Yong-pan,et al.An Index Weight Determination Method Based on Improved Group AHP[J].Modern Defence Technology,2016,44(5):149-154,200. [8] 王泽洲,陈云翔,蔡忠义,等.基于偏差熵的专家聚类赋权方法[J].火力与指挥控制,2016,41(9):61-65. WANG Ze-zhou,CHEN Yun-xiang,CAI Zhong-yi,et al.Expert Clustering Weighting Method Based on Deviation Entropy[J].Fire Control & Command Control,2016,41(9):61-65. [9] 郭文明,相景丽,肖凯生.群组AHP权重系数的确定[J].华北工学院学报,2000(2):110-113. GUO Wen-ming,XIANG Jing-li,XIAO Kai-sheng.Determination of Weight Coefficient of Group AHP[J].Journal of North China Institute of Technology,2000(2):110-113. [10] 李勇祥,曹泽阳,杨志玮.基于主成分分析的机务人员维修保障能力评价[J].现代防御技术,2020,48(4):110-116. LI Yong-xiang,CAO Ze-yang,YANG Zhi-wei.Evaluation of Maintenance Support Ability of Aircrew Based on Principal Component Analysis[J].Modern Defence Technology,2020,48(4):110-116. [11] 武兆斌,陈黎,赵春霞.基于灰色聚类和层次分析的模拟训练成绩评定[J].系统仿真学报,2016,28(2):416-423,433. WU zhao-bin,CHEN Li,ZHAO Chun-xia.Performance Evaluation of Simulation Training Based on Grey Clustering and Analytic Hierarchy Process[J].Journal of System Simulation,2016,28(2):416-423,433. [12] 朱敦祥,史宪铭,荣丽卿,等.云物元的军民融合装备维修保障能力评估[J].现代防御技术,2019,47(2):130-136. ZHU Dun-xiang,SHI Xian-ming,RONG Li-qing,et al.Evaluation of Integration of Defense and Civilian Technologies Equipment Maintenance Support Capability Based on Cloud Matter Element[J].Modern Defence Technology,2019,47(2):130-136. [13] 陈宇奇,付勃,赵潇童.装备保障方案综合评价系统运用分析[J].现代防御技术,2017,45(3):155-166. CHEN Yu-qi,FU Bo,ZHAO Xiao-tong.Application Analysis of Comprehensive Evaluation System of Equipment Support Scheme[J].Modern Defense Technology,2017,45(3):155-166. [14] 何佩佩,唐霜天,匡华星.一种基于层次划分聚类的雷达信号分选算法[J].现代防御技术,2016,44(4):51-55. HE Pei-pei,TANG Shuang-tian,KUANG Hua-xing.A Radar Signal Sorting Algorithm Based on Hierarchical Clustering[J].Modern Defence Technology,2016,44(4):51-55. [15] 陈圆超,戴剑勇,谢东.矿井通风系统的组合赋权云模型综合评价[J].系统工程,2020,38(6):35-42. CHEN Yuan-chao,DAI Jian-yong,XIE Dong.Comprehensive Evaluation of Combined Weighted Cloud Model of Mine Ventilation System[J].System Engineering,2020,38(6):35-42. |