基于模糊推理的作战保障分队能力评估方法

doi:10.3969/j.issn.1009-086x.2020.05.012

现代防御技术 ›› 2020, Vol. 48 ›› Issue (5): 79-85.DOI: 10.3969/j.issn.1009-086x.2020.05.012

基于模糊推理的作战保障分队能力评估方法

李亚雄, 马峰, 武健

火箭军工程大学,陕西西安 710025

收稿日期:2020-04-08 修回日期:2020-06-08 出版日期:2020-10-20 发布日期:2021-02-01
作者简介:李亚雄(1979-),男,云南大理人。副教授,博士,主要从事军事运筹、任务规划方向的教学科研工作。通信地址:710025 陕西省西安市灞桥区洪庆镇同心路2号 E-mail:13571996716@139.com

Evaluation Method of Combat Support Unit Capability Based on Fuzzy Reasoning

LI Ya-xiong, MA Feng, WU Jian

Rocket Force University of Engineering,Shaanxi Xi'an 710025,China

Received:2020-04-08 Revised:2020-06-08 Online:2020-10-20 Published:2021-02-01

摘要/Abstract

摘要： 开展作战保障分队能力评估及建设是信息化条件下体系作战能力生成的重要支撑。相比作战保障装备层级的能力评估,对分队实施能力评估会面临定性评估指标多、评判标准模糊性强等难题。模糊推理方法对解决上述问题具有明显优势,通过模糊集合赋值、输入值模糊化建模、模糊推理规则建立、合成模糊集构建、解模糊处理等步骤,建立了基于模糊推理的作战保障分队能力评估方法。该方法易于被军事人员理解,具有重要的军事应用价值。

关键词: 模糊集合, 模糊化, 模糊推理, 保障分队, 能力评估

Abstract: Carrying out the capability evaluation and construction of combat support units is an important support for the formation of system capabilities under the informatization condition.Compared with the capability assessment at the level of combat support equipment,the implementation of capability assessment for sub-units will encounter many difficulties,such as more qualitative assessment indicators,strong fuzziness of evaluation criteria,etc.Fuzzy reasoning method has obvious advantages in solving the above problems.Through the steps of fuzzy set assignment,fuzzy modeling of input values, establishment of fuzzy reasoning rules,construction of synthetic fuzzy sets,and defuzzification processing,a fuzzy reasoning-based capability evaluation method for combat support units is established.The method can be easily understood by military personnel and has important military application value.

Key words: fuzzy set, fuzzification, fuzzy reasoning, support team, capability evaluation

中图分类号:

TJ765

李亚雄, 马峰, 武健. 基于模糊推理的作战保障分队能力评估方法[J]. 现代防御技术, 2020, 48(5): 79-85.

LI Ya-xiong, MA Feng, WU Jian. Evaluation Method of Combat Support Unit Capability Based on Fuzzy Reasoning[J]. Modern Defense Technology, 2020, 48(5): 79-85.

参考文献

[1] 李钊,刘文彪,欧阳中辉,等.基于综合赋权法-云模型的装备保障能力评估[J].指挥控制与仿真,2018,40(5):69-74.
LI Zhao,LIU Wen-biao,OUYANG Zhong-hui,et al.Equipment Support Capability Evaluation Based on Comprehensive Weighting Method Cloud Model[J].Command Control and Simulation,2018,40(5):69-74.
[2] 刘耀辉,刘小方,张毅,等.某型导弹发射单元机动作战伴随保障能力评估[J].兵工自动化,2018,37(8):73-77.
LIU Yao-hui,LIU Xiao-fang,ZHANG Yi,et al.Evaluation of the Accompanying Support Capability of a Missile Launching Unit in Mobile Operations [J].Automation of Military Industry,2018,37(8):73-77.
[3] 孟岩磊,陈桂明,常雷雷.阵地设施设备保障能力评估[J].兵工自动化,2018,37(7):61-67.
MENG Yan-lei,CHEN Gui-ming,CHANG Lei-lei.Evaluation of Support Capacity of Position Facilities and Equipment [J].Ordnance Automation,2018,37(7):61-67.
[4] 高健,刘铁林,冯兵,等.基于AHP的轻武器装备维修保障能力评估[J].兵器装备工程学报,2018,39(3):92-94,142.
GAO Jian,LIU Tie-lin,FENG Bing,et al.Evaluation of Maintenance and Support Capability of Light Weapons Equipment Based on AHP[J].Journal of Armament Engineering,2018,39(3):92-94,142.
[5] 曹彪,王帅磊,张金春,等.基于熵权的航空装备维修保障能力评估[J].兵工自动化,2016,35(8):71-74,79.
CAO Biao,WANG Shuai-lei,ZHANG Jin-chun,et al.Evaluation of Aviation Equipment Maintenance Support Capability Based on Entropy Weight [J].Automation of Military Industry,2016,35(8):71-74,79.
[6] 李欣屹,王强,周洪斌,等.基于ANP-灰色模糊的航空装备维修保障能力评估[J].火力与指挥控制,2018,43(3):100-106.
LI Xin-yi,WANG Qiang,ZHOU Hong-bin,et al.Evaluation of Aviation Equipment Maintenance Support Capability Based on ANP Grey Fuzzy[J].Fire and Command Control,2018,43(3):100-106.
[7] 龚杰,雍歧东,于力,等.基于云模型和层次分析法的油料保障能力评估[J].兵工自动化,2018,37(2):66-69.
GONG Jie,YONG Qi-dong,YU Li,et al.Assessment of Oil Support Capability Based on Cloud Model and AHP[J].Automation of military industry,2018,37(2):66-69.
[8] 孙志鹏,陈桂明,高卫刚.基于证据推理的预警反击作战体系保障能力评估方法[J].兵工学报,2019,40(9):1928-1934.
SUN Zhi-peng,CHEN Gui-ming,GAO Wei-gang.Evaluation Method of Support Capability of Early Warning and Counterattack Combat System Based on Evidence Reasoning[J].Journal of Military Engineering,2019,40(9):1928-1934.
[9] 闫永玲,张庆波,冯友松,等.地空导弹保障分队人员维修保障能力评估[J].火力与指挥控制,2019,44(2):1-5,10.
YAN Yong-ling,ZHANG Qing-bo,FENG You-song,et al.Evaluation of Maintenance and Support Capability of Ground to Air Missile Support Team[J].Fire and Command Control,2019,44(2):1-5,10.
[10] 马建坤,梁涛.基于分级直觉模糊推理的通信干扰威胁评估方法[J].通信技术,2018,51(11):2537-2543.
MA Jian-kun,LIANG Tao.Communication Interference Threat Assessment Method Based on Hierarchical Intuitionistic Fuzzy Reasoning[J].Communication Technology,2018,51(11):2537-2543.
[11] 王洪东,潘畅,温欣,等.基于语言真值直觉模糊推理的公共交通资源投入评估方法[J].济南大学学报:自然科学版,2018,32(3):204-211.
WANG Hong-dong,PAN Chang,WEN Xin,et al.Evaluation Method of Public Transport Resource Input Based on Language Truth Intuitionistic Fuzzy Reasoning[J].Journal of Jinan University:Natural Science ed,2018,32(3):204-211.
[12] 刘明顺,龙志君,赵立进,等.基于模糊推理的电网风险评估及线路重要度辨识[J].电力科学与技术学报,2017,32(3):131-138.
LIU Ming-shun,LONG Zhi-jun,ZHAO Li-jin,et al.Power Grid Risk Assessment and Line Importance Identification Based on Fuzzy Reasoning[J].Journal of Power Science and Technology,2017,32(3):131-138.
[13] 姜剑雄,赵毅,师鹏,等.基于直觉模糊推理的天基海洋监视系统贡献度评估研究[J].上海航天,2016,33(6):115-121.
JIANG Jian-xiong,ZHAO Yi,SHI Peng,et al.Contribution Assessment of Space-Based Ocean Surveillance System Based on Intuitionistic Fuzzy Reasoning[J].Shanghai Aerospace,2016,33(6):115-121.
[14] 罗宇.防空导弹武器系统效能评估研究[D].西安:西北工业大学,2016.
LUO Yu.Effectiveness Evaluation of Air Defense Missile Weapon System[D].Xi'an:Northwest University of technology,2016.
[15] 司广宇,潘峰.潜艇防空导弹武器系统效能评估模型研究[J].指挥控制与仿真,2010,32(6):49-51.
SI Guang-yu,PAN Feng.Study on Effectiveness Evaluation Model of Submarine air Defense Missile Weapon System[J].Command control and simulation,2010,32(6):49-51.
[16] 刘泽宇,董晨,师鹏,等.防空体系作战能力评估方法[J].火力指挥与控制,2019,44(11):35-40.
LIU Ze-yu,DONG Chen,SHI Peng.Operational Capability Evaluation Method of Air Defense System[J].Fire Command and Control,2019,44(11):35-40.
[17] 师鹏,刘泽宇,王逍,等.一种防空反导体系作战能力评估方法:CN108615122A[P].北京,2018-10-02.
SHI Peng,LIU Ze-yu,WANG Xiao,et al.A Method for Evaluating the Operational Capability of Air defense and Anti Missile System:CN108615122A[P].Beijing,2018-10-02.

基于模糊推理的作战保障分队能力评估方法

Evaluation Method of Combat Support Unit Capability Based on Fuzzy Reasoning

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