系统工程与电子技术
繫統工程與電子技術
계통공정여전자기술
SYSTEMS ENGINEERING AND ELECTRONICS
2014年
8期
1558-1565
,共8页
黄长强%刘鹤鸣%黄汉桥%程华%陈少华
黃長彊%劉鶴鳴%黃漢橋%程華%陳少華
황장강%류학명%황한교%정화%진소화
无人作战飞机%轨迹规划%滚动时域控制%高斯伪谱法%飞行包线
無人作戰飛機%軌跡規劃%滾動時域控製%高斯偽譜法%飛行包線
무인작전비궤%궤적규화%곤동시역공제%고사위보법%비행포선
unmanned combat aerial vehicle (UCAV )%trajectory planning%receding horizon control (RHC)%Gauss pseudospectral method (GPM)%flight envelop
针对无人作战飞机(unmanned combat aerial vehicle,UCAV)对地攻击过程中存在的诸多不确定性因素问题,提出基于滚动时域策略和 Gauss 伪谱法(Gauss pseudospectral method,GPM)的在线实时攻击轨迹决策算法。算法采用滚动时域的优化策略,将全局优化问题转化为一系列相互叠加但不断向前推进的优化区间,通过滚动更新和反馈校正消除不确定误差,同时降低了所提算法的计算复杂度和对计算资源的需求;综合飞行包线约束,武器投射约束和威胁规避约束,采用 GPM 完成高精度攻击轨迹求解;采用实时迭代策略提供优化初值,通过自适应目标函数切换引导 UCAV 迅速规避近距突发威胁。仿真结果表明,所提算法能够有效消除不确定误差,同时以较高的精度和速度生成可行的攻击轨迹。
針對無人作戰飛機(unmanned combat aerial vehicle,UCAV)對地攻擊過程中存在的諸多不確定性因素問題,提齣基于滾動時域策略和 Gauss 偽譜法(Gauss pseudospectral method,GPM)的在線實時攻擊軌跡決策算法。算法採用滾動時域的優化策略,將全跼優化問題轉化為一繫列相互疊加但不斷嚮前推進的優化區間,通過滾動更新和反饋校正消除不確定誤差,同時降低瞭所提算法的計算複雜度和對計算資源的需求;綜閤飛行包線約束,武器投射約束和威脅規避約束,採用 GPM 完成高精度攻擊軌跡求解;採用實時迭代策略提供優化初值,通過自適應目標函數切換引導 UCAV 迅速規避近距突髮威脅。倣真結果錶明,所提算法能夠有效消除不確定誤差,同時以較高的精度和速度生成可行的攻擊軌跡。
침대무인작전비궤(unmanned combat aerial vehicle,UCAV)대지공격과정중존재적제다불학정성인소문제,제출기우곤동시역책략화 Gauss 위보법(Gauss pseudospectral method,GPM)적재선실시공격궤적결책산법。산법채용곤동시역적우화책략,장전국우화문제전화위일계렬상호첩가단불단향전추진적우화구간,통과곤동경신화반궤교정소제불학정오차,동시강저료소제산법적계산복잡도화대계산자원적수구;종합비행포선약속,무기투사약속화위협규피약속,채용 GPM 완성고정도공격궤적구해;채용실시질대책략제공우화초치,통과자괄응목표함수절환인도 UCAV 신속규피근거돌발위협。방진결과표명,소제산법능구유효소제불학정오차,동시이교고적정도화속도생성가행적공격궤적。
Aimed at the uncertain factors in unmanned combat aerial vehicle (UCAV)air-to-surface com-bat,an online real-time attacking trajectory planning algorithm based on the receding horizon control (RHC) optimize strategy and Gauss pseudospectral method (GPM)is presented.The proposed algorithm adopts RHC strategy which transforms the global planning model into a series of overlapping but moving forward local opti-mize window,uncertain error can be eliminated through rolling update and feedback revise of this strategy, computational complexity and computational resource need can be greatly reduced through model predictive of this strategy;GPM is adopted to resolve a high-fidelity attacking trajectory which combines the flight envelop constraints,weapon delivery constraints and threat avoidance constraints;real-time iteration scheme is adopted to give initial Guess,and auto switch objective function is adopted to guide UCAV evade pop-up threat.Simula-tion result shows that the proposed algorithm can greatly eliminate uncertain error,and get a high-fidelity attac-king trajectory in real time.