[1] 丁禹,逯志安,焦建伟.2014年网络空间安全问题综述与展望[J].信息安全与通信保密,2015,11(2):16-21. DING Yu,LU Zhi-an,JIAO Jian-wei.Review and Prospect of Cyberspace Security in 2014[J].China Information Security,2015,11(2):16-21. [2] 许相莉,胡晓峰.一种基于复杂网络理论的网络空间作战指挥效能评估指标体系框架[J].军事运筹与系统工程,2014,28(1):33-37. XU Xiang-Li,HU Xiao-feng.A Framework of the Evaluation Index System for Network Space Combat Command Effectiveness Based on Complex Network Theory[J].Military Operations and Systems Engineering,2014,28(1):33-37. [3] 张杰,唐宏,苏凯,等.效能评估方法研究[M].北京:国防工业出版社,2009. ZHANG Jie,TANG Hong,SU Kai,et al.Research on Efficiency Evaluation Method[M].Beijing:Defense Industry Press,2009. [4] 王劲松,邹磊,孙雪飞.基于灰色模糊综合评价的网络作战能力评估[J].现代防御技术,2013,41(4):74-81. WANG Jin-song,ZOU Lei,SUN Xue-fei.Research on Gray Fuzzy Comprehensive of Net War Capability[J].Modern Defence Technology,2013,41(4):74-81. [5] 王劲松,李宗育,徐晏琦.基于 Hopfield 网络的网络空间防御能力评估[J].控制工程,2017,24(2):263-270. WANG Jin-song,LI Zong-yu,XU Yan-qi.Assessment of Cyberspace Information Defense Capability Based on Hopfield Neural Network[J].Control Engineering of China,2017,24(2):263-270. [6] 王付明,朱宏,孙雪飞.基于解析结构模型的网络空间信息防御能力分析[J].指挥控制与仿真,2014,36(3):36-39. WANG Fu-ming,ZHU Hong,SUN Xue-fei.Hieararchical Structure Analysis of Cyberspace Information Defense Capability Based on Interpretative Structural Modeling Method[J].Command Control & Simulation,2011,20(5):51-52. [7] 丁邦宇.作战指挥学[M].北京:军事科学出版社,2004. DING Bang-yu.Operational Command[M].Beijing:Military Science Press,2004. [8] 邬江兴 .网络空间拟态安全防御[J].保密科学与技术,2014,23(10):4-9. WU Jiang-xing.Network Security Mimicry Defense[J].Secrecy Science and Technology,2014,23(10):4-9. [9] 马琳,宋贵宝.一种作战指挥效能的混合评估模型[J].舰船电子工程,2006,26(5):5-8. MA Lin,SONG Gui-bao.A Hybrid Evaluated Model of the Operation Command[J].Efficiency Ship Electronic Engineering,2006,26(5):5-8. [10] 张冉,杨小军,孙丹辉,等.电子对抗指控系统行进间指挥效能评估方法研究[J].软件,2015,36(5):77-80. ZHANG Ran,YANG Xiao-jun,SUN Dan-hui.Research on the Evaluation of the Effectiveness of EW C4ISR Systems in Maneuvering[J].Computer Engineering & Software,2015,36(5):77-80. [11] 王子明,王汉礼,陈邓安.基于行为理论的指挥效能评估研究[J].计算机与数字工程,2014,42(12):2271-2274. WANG Zi-ming,WANG Han-li,CHEN Deng-an.An Analysisi of Operation Commanding Effectivenes Assessment Based on Behavior Theory[J].Computer & Digital Engineering,2014,42(12):2271-2274. [12] 李国伟,王付明,于明涛.基于系统动力学的网络空间联合反恐作战指挥效能建设评估[J].装甲兵工程学院学报,2016,30(6):6-11. LI Guo-wei,WANG Fu-ming,YU Ming-tao.Combat Command Effectiveness Construction Evaluation of Cyberspace Joint Anti-Terrorism Based on System Dynamics[J].Journal of Academy of Armored Force Engineering,2016,30(6):6-11. [13] 李建印.基于BP神经网络的装备保障能力评估研究管理[J].管理评论,2014,26(12):182-188.LI Jian-yin.Research Management of Equipment Support Capability Assessment Based on BP Neural Network[J].Management Review,2014,26(12):182-188. [14] 田雨波,陈风,张贞凯.混合神经网络技术[M].北京:科学出版社,2015. TIAN Yu-bo,CHEN Feng,ZHANG Zhen-kai.Hybrid Neural Network Technology[M].Beijing:Science Press,2015. [15] 阮慧,党德鹏.基于RBF模糊神经网络的信息安全风险评估[J].计算机工程与设计,2011,32(6):2113-2128. RUAN Hui,DANG De-peng.Risk Assessment of Information Security Based on RBF Fuzzy Neural Network[J].Computer Engineering and Design,2011,32(6):2113-2128. [16] 刘铜,李小全,王永良,等.基于改进模糊神经网络算法的炮兵火力运用方案评估[J].指挥控制与仿真,2017,39(1):25-29. LIU Tong, LI Xiao-quan, WANG Yong-liang, et al.Assessment of Artillery Fire Application Plan Based on Improved Fuzzy BP Neural Network[J].Command Control & Simulation,2017,39(1):25-29. [17] 夏维,刘新学,范阳涛,等.基于混合遗传BP神经网络的城市系统作战能力评估[J].系统工程与电子技术,2017,39(1):107-113. XIA Wei,LIU Xin-xue,FAN Yang-tao.Combat Capability Evaluation of City System Based on Mix Genetical-Gorithm BP Neual Network[J].Systems Engineering and Electronics,2017,39(1):107-113. |