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Attitude control allocation strategy of high altitude airship based on synthetic performance optimization 被引量:1

Attitude control allocation strategy of high altitude airship based on synthetic performance optimization
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摘要 This paper presents a method for solving the attitude control problem of high altitude airship (HAA) with aerodynamic fin and vectored thruster control. The algorithm is based on the synthetic optimization of dynamic performance and energy consumption of airship. Firstly, according to the system overall configuration, the dynamic model of HAA was established and the HAA linearized model of longitudinal plane motion was obtained. Secondly, using the classic PID control theory, the HAA attitude control system was designed. Thirdly, through analyzing the dynamic performance of airship with fin or vectored thruster control, the synthetic performance index function with different weighting functions was determined. By means of optimizing the obtained performance index function, the attitude control of high altitude airship with good dynamic performance and low energy consumption was achieved. Finally, attitude control allocation strategy was designed for the airship station keeping at an altitude of 22 km. The simulation experiment proved the validity of the proposed algorithm. This paper presents a method for solving the attitude control problem of high altitude airship (HAA) with aerodynamic fin and vectored thruster control. The algorithm is based on the synthetic optimization of dynamic performance and energy consumption of airship. Firstly, according to the system overall configuration, the dynamic model of HAA was established and the HAA linearized model of longitudinal plane motion was obtained. Secondly, using the classic PID control theory, the HAA attitude control system was designed. Thirdly, through analyzing the dynamic performance of airship with fin or vectored thruster control, the synthetic per- formance index function with different weighting functions was determined. By means of optimizing the obtained performance index function, the attitude control of high altitude airship with good dynamic performance and low energy consumption was achieved. Finally, attitude control allocation strategy was designed for the airship station keeping at an altitude of 22 km. The simulation experiment proved the validity of the proposed algorithm.
出处 《Journal of Harbin Institute of Technology(New Series)》 EI CAS 2009年第6期746-750,共5页 哈尔滨工业大学学报(英文版)
关键词 high altitude airship attitude control synthetic performance optimization control strategy 姿态控制系统 高空飞艇 性能优化 分配策略 推力矢量控制 性能指标函数 高动态性能 基础
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  • 1占正勇,刘林.多操纵面先进布局飞机控制分配技术研究[J].飞行力学,2006,24(1):13-16. 被引量:17
  • 2Clark C K,Bernens M R.High Angle-of-Attack Fight Characteristics of the YF-22[R].AIAA-91-3194,1991.
  • 3Bordigon Kenneth A,Durham Wayne C.Closed-Form Solution to Constrained Control Allocation Problem[J].Journal of Guidance,Control,and Dynamics,1995,18(5):1 000-1 007.
  • 4Shertzer Richard H.Control Allocation for the Next Generati of Entry Vehicles[D].B S Engineering Mechanics,United States Air Force Academy,Degree of Master of Science in Aeronautics and Astonautics,2001.

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  • 1Bodson M.Evaluation of optimization methods for control allocation[J].Journal of Guidance,Control,and Dynamics,2002,25(4);700-711.
  • 2Page A,Steinberg M.A closed-loop comparison of control allocation methods[C]//Proceedings of the AIAA Guidance,Navigation,and Control Conference,AIAA A00-37180,2000.
  • 3Doman D B,Gamble B J,Ngo A D.Control allocation of reaction control jets and aerodynamics surfaces for entry vehicles[C]//Proceedings of AIAA Guidance,Navigation and Control Conference and Exhibi,AIAA-2007-6778,2007.
  • 4Bolender M A,Doman D B,Opeenherimer M W.Application of piecewise linear control allocation to reusable launch vehicle guidance and control[C]// Proceeding of the 14th Mediterranean Conference on Control and Aunmiation,2006:1-10.
  • 5Doman D B,Ngo A D.Dynamic inversion-based adaptive/ reconfigurable control of the X-33 on ascent[J].Journal of Guidance,Control,and Dynamics,2002,25(2):275-284.
  • 6Enns D.Control allocation approaches[C]//Proceedings of the 1998 AIAA Guidance,Navigation,and Control Conference,AIAA-1998-4109,1998.
  • 7Burken J J,Ping L.Two reconfigurable flight control design methods:robust servomechanism and control allocation[J].Journal of Guidance,Control,and Dynamics,2001,24(3):482-493.
  • 8Joseph B M,Michael A P,Zhao Y Y.Development of an aerodynamic model and control law design for a high altitude airship[C]//Proceedings of AIAA the 3rd "Unmanned Unlimited" Technical Conference Workshop and Exhibit,Chicago,2004:1-17.
  • 9杨恩泉,高金源,李卫琪.多目标非线性控制分配方法研究[J].航空学报,2008,29(4):995-1001. 被引量:28

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