基于九宫格与威力场的态势显示与辅助决策方法
[1] WANG Y.A novel situation assessment model based on connection potential[C]//International Conference on Communications, 2016:126-143.
[2] DURSO F T, HACKWORTH C A, TRUITT T R, et al.Situation awareness as a predictor of performance for en route air traffic controllers[J].Air Traffic Control Quarterly, 2016, 6(1):1-20.
[3] ERLANDSSON T, MOLANDER S, ALFREDSON J, et al.Challenges in tactical support functions for fighter aircraft[C]//Proceedings of the 3rd Skvde Workshop on Information Fusion Topics, Skvde:Hgskolan I Skvde, 2009:39-43.
[4] DEREFELDT G, SKINNARS O, ALFREDSON J, et al.Improvement of tactical situation awareness with colour-coded horizontal-situation displays in combat aircraft[J].Displays, 1999, 20(4):171-184.
[5] DAI H Y, NIN L I, CUI J L, et al.Analysis and simulation of air defense weapon system complicated electromagnetic environment effect[J].Journal of China Academy of Electronics & Information Technology, 2013, 8(1):64-69.
[6] 杨荣,李长军,龚华军.一种适用于四代机的多目标威胁评估算法[J].电光与控制,2014,21(10):5-9,46.
[7] 蒙小飞,杜海文,封普文.基于高斯云贝叶斯网络的空战态势评估[J].计算机工程与应用,2016,52(15):249-253.
[8] 胡云安,刘振,史建国.态势评估的变结构区间概率动态贝叶斯网络方法[J].系统工程与电子技术,2013,35(9):1891-1897.
[9] GROSS G, NAGI R, SAMBHOOS K.A fuzzy graph matching approach in intelligence analysis and maintenance of continuous situational awareness[J].Information Fusion, 2014, 18(1):43-61.
[10] BONISSONE P P.Using T-norm based uncertainty calculi in a naval situation assessment application[J].Computer Science, 2013(2):328-329.
[11] MA S, YANG G, ZHANG H, et al.Target threat level assessment technology based on cloud model and Bayesian revision in air combat simulation[J].Aerospace Science & Technology, 2017, 67(8):49-53.
[12] XUAN Y B, HUANG C Q, LI W X.Air combat situation assessment by gray fuzzy Bayesian network[J].Applied Mechanics and Materials, 2011, 69(6):114-119.
[13] LI W, YU C, BRAITHWAITE G, et al.Pilots attention distributions between chasing a moving target and a stationary target[J].Aerospace Medicine and Human Performance, 2016, 87(12):989-995.
[14] 周思羽,吴文海,曲志刚,等.基于非参量法的空战态势评估分析[J].航空计算技术,2011,41(4):13-16, 20.
[15] 李战武,常一哲,杨海燕,等.基于动态威力场的协同空战态势评估方法研究[J].系统仿真学报,2015,27(7):1584-1590,1600.
[16] 周焘,任波,于雷.基于威力场的空战分析建模[J].系统仿真学报,2008,20(3):738-740.
[17] 晁学鹏.一种基于K均值聚类的下采样算法[J].科技通报,2013,29(8):73-75.
[18] 汤志荔,张安.战场威胁估计理论与方法研究[J].火力与指挥控制,2011,36(9):1-4.
[19] 彭方明,邢清华,王三涛.基于Vague集TOPSIS法的空中目标威胁评估[J].电光与控制,2010,17(10):23-27.
[20] 张堃,周德云.基于熵的TOPSIS法空战多目标威胁评估[J].系统工程与电子技术,2007,29(9):1493-1495.
[21] 杨仪,向长城,魏代俊.可拓K近邻算法在数据聚类分析中的应用[J].计算机工程与应用,2010,46(21):156-159.
[22] FAHLSTROM P G,GLEASON T J.无人机系统导论[M].吴汉平,译.北京:电子工业出版社,2014.
[23] 顾佼佼,赵建军,刘卫华.基于博弈论及Memetic算法求解的空战机动决策框架[J].电光与控制,2015,22(1):20-23.
[24] 张立鹏,魏瑞轩,李霞.无人作战飞机空战自主战术决策方法研究[J].电光与控制,2012,19(2):92-96.
孙庆鹏, 李战武, 徐安. 基于九宫格与威力场的态势显示与辅助决策方法[J]. 电光与控制, 2018, 25(11): 93. SUN Qing-peng, LI Zhan-wu, XU An. Situation Display and Assistant Decision-Making Method Based on Sudoku and Combat Power Field[J]. Electronics Optics & Control, 2018, 25(11): 93.