ABSTRACT
In the process of battlefield target identification and decision-making, it has the characteristics of real-time change of target parameter data and large amount of data. The previous target value analysis methods have large limitations. Considering the impact of real-time data driving on target value analysis and decision-making, the cloud model is used to target the target. The uncertain and fuzzy information in the real-time data is quantified to generate cloud membership; based on the data envelopment analysis (DEA) method, a relatively optimal efficiency decision-making tool, the value of the battlefield target is carried out. Sorting and decision making. Finally, a numerical example is analysed to verify the applicability and correctness of the model. The calculation example shows that the model can meet the timeliness of hitting targets in wartime, and it provides a practical mathematical tool for analysis of the value of battlefield targets.
- Wu Haitao, Liu Yang, Qu Dan, Zhu Xianqiang. A Survey of Target Selection Theories and Methods [J]. Military Operations Research and Systems Engineering, 2020, 34 (04): 75 - 80.Google Scholar
- Wang Sanxi, Yang Yunsong, Du Dan. Research on the value ranking model of combat targets [J]. Journal of China Academy of Electronics, 2015, 10 (02): 195 - 198+203.Google Scholar
- Xu Kehu, Huang Dashan, Wang Tianzhao. Evaluation of battle targets of tank units based on RBF-GA [J]. Firepower and Command Control, 2013, 38 (12): 83 - 87.Google Scholar
- Liu Hao, Xing Yan, Wu Shijie. Evaluation of the target value of joint fire strike based on system destruction [J]. Systems Engineering and Electronic Technology, 2020, 42 (12): 2802 - 2810.Google Scholar
- Li Deyi, Meng Haijun, Shi Xuemei. Affiliated Cloud and Affiliated Cloud Generator [J]. Computer Research and Development, 1995 (06): 15 - 20.Google Scholar
- Di Peng, Ni Zichun, Yin Dongliang. Multi-attribute decision-making optimization algorithm based on cloud model and evidence theory [J]. System Engineering Theory and Practice, 2021, 41 (04): 1061 - 1070.Google Scholar
- Meng Qiang, Xu Kehu, Li Ke. Evaluation of tank target value based on cloud theory [J]. Ordnance Industry Automation, 2010, 29 (12): 31 - 33+37.Google Scholar
- Xu Kangfa, Wu Qingxian, Shao Shuyi. Closed-loop air combat decision-making evaluation based on cloud model [J]. Journal of Jilin University (Information Science Edition), 2020, 38 (04): 410 - 418.Google Scholar
- Sun Zhihua, Shen Jia. Research on the Target Value Evaluation Method of Electronic Warfare Based on Improved AHP [J]. Ship Electronic Warfare, 2012, 35 (05): 75 - 78+114.Google Scholar
- Ma Songshan, Ren Pengfei, Ma Renli, Feng Guobao. Target ranking method based on fuzzy comprehensive evaluation [J]. Journal of Shandong University of Technology (Natural Science Edition), 2021, 35 (03): 7 - 9+16.Google Scholar
- Charnes A, Cooper W W and Rhodes E. Measuring the efficiency of decision making units. European Journal of Operational Research, 1978, 2: 429 - 444.Google ScholarCross Ref
- Zhao Tongxing, Lu Houqing, Gong Yunxiang. Value evaluation of system combat target nodes based on DEA model [J]. Computer and Digital Engineering, 2013, 41 (04): 532 - 534+576.Google Scholar
- Deng Zhihong. Research on target value analysis method in conventional missile target selection [D]. National University of Defense Technology, 2009.Google Scholar
- Wu Xiaopeng, Li Yaxiong, Hu Yao, Li Zhifu. Target individual value evaluation based on DEA-AHP model [J]. Ship Electronic Engineering, 2020, 40 (08): 28 - 33.Google Scholar
Index Terms
- Battlefield Target Intelligent Value Analysis Based on Real-Time Data
Recommendations
Analysis of TDOA based radar target positioning in LOS and NLOS environments
We present the analysis of a radar target positioning technique in both Line-of-Sight LOS and Non-Line-of-Sight NLOS environments. A Time-Difference-of-Arrival TDOA method is investigated to find the target position and its positioning accuracy in terms ...
Real-time moving target evaluation search
In this correspondence, we address the problem of real-time moving target search in dynamic and partially observable environments, and propose an algorithm called real-time moving target evaluation search (MTES). MTES is able to detect the closed ...
Research on Battlefield Target Value Evaluation Model Based on Improved BP Algorithm
ICICEE '12: Proceedings of the 2012 International Conference on Industrial Control and Electronics EngineeringTarget value evaluation is the core task in the battlefield information processing. How to evaluate the value of targets and calculate their priorities based on battlefield target information and the combat mission is a focuses problem in the modern ...
Comments