| 引用本文: | 嵇慧明,余敏建,乔新航,等.改进BAS-TIMS算法在空战机动决策中的应用.[J].国防科技大学学报,2020,42(4):123-133.[点击复制] |
| JI Huiming,YU Minjian,QIAO Xinhang,et al.Application of the improved BAS-TIMS algorithm in air combat maneuver decision[J].Journal of National University of Defense Technology,2020,42(4):123-133[点击复制] |
|
| |
|
|
| 本文已被:浏览 7052次 下载 5118次 |
| 改进BAS-TIMS算法在空战机动决策中的应用 |
| 嵇慧明1,2,余敏建2,乔新航1,杨海燕2,张帅文1 |
|
(1. 中国人民解放军94701.部队, 安徽 安庆 246000;2. 空军工程大学 空管领航学院, 陕西 西安 710051)
|
| 摘要: |
| 针对当前空战机动决策精确度低、实时性差的缺点,对天牛须搜索-战术免疫机动系统(Beetle Antennae Search-Tactical Immune Maneuver System, BAS-TIMS)算法进行改进,并应用于空战机动决策中。增加左爬升、右爬升、左俯冲、右俯冲4种机动,对传统的机动策略库进行扩充,设计了11种基本机动策略并给出了相应的控制方法。基于距离、高度、速度、角度和战机性能优势函数,利用非参量法构造战机机动决策综合优势函数。针对天牛须搜索算法在全局搜索和收敛速度上存在的缺陷,引入蒙特卡洛概率迭代的方法对算法进行改进,并和战术免疫机动系统进行融合,将改进的BAS-TIMS算法用于空战机动决策。设计算例进行仿真分析,并将结果和博弈论法、改进共生生物免疫进化算法、传统BAS算法和传统TIMS模型的计算结果进行对比,验证所提算法的有效性。仿真结果表明:改进BAS-TIMS算法在空战机动决策的收敛精度、收敛速度和全局搜索能力上更加具有优势。 |
| 关键词: 空战决策 机动策略 态势优势 天牛须搜索 战术免疫机动 |
| DOI:10.11887/j.cn.202004019 |
| 投稿日期:2019-09-18 |
| 基金项目:国家自然科学基金资助项目(61472441);国家部委基金资助项目(61403110304) |
|
| Application of the improved BAS-TIMS algorithm in air combat maneuver decision |
| JI Huiming1,2, YU Minjian2, QIAO Xinhang1, YANG Haiyan2, ZHANG Shuaiwen1 |
|
(1. The PLA Unit 94701, Anqing 246000, China;2. Air Traffic Control and Navigation College, Air Force Engineering University, Xi′an 710051, China)
|
| Abstract: |
| Owing to the low accuracy and poor real-time ability of modern air combat maneuver decision-making, the BAS-TIMS (beetle antennae search-tactical immune maneuver system) algorithm was improved and applied to air combat maneuver decision-making. The traditional maneuver inventory was enlarged by adding four maneuvers, left climbing, right climbing, left diving, right diving. Eleven basic maneuver tactics were designed, and a method was given to control them. Considering range, height, speed, angle and the superiority function of fighter performance, a comprehensive superiority function of fighter performance was built with the help of nonparametric model. Monte Carlo probability iteration was introduced into the beetle antennae search algorithm to improve its global search ability and convergence speed. This algorithm was combined with TIMS, and the improved BAS-TIMS algorithm was applied into modern air combat maneuver decision-making. An example was given to simulate and prove the effectiveness by comparing BAS-TIMS with game theory, the improved symbiotic immune evolutionary algorithm, the traditional BAS algorithm and the traditional TIMS model. The simulation results show that the improved BAS-TIMS algorithm has more advantages on convergence speed, accuracy and global search ability in air combat maneuver decision-making. |
| Keywords: air combat decision maneuvering strategy situation superiority beetle antennae search tactical immune maneuver system |
|
|
|
|
|
