[1] Ralph J A, Bansal I, Bough R M. Advanced control for airbreathing engines. NASA CA 189203-189205, 1993.[2] Zhu X J. Development of advanced aero-engine control concept and high stability engine control system. Gas Turbin Experiment and Research, 2002, 15(3): 5-10. (in Chinese) 朱旭津. 航空发动机先进控制概念和高稳定性发动机控制系统研制. 燃气涡轮试验与研究, 2002, 15(3): 5-10.[3] Litt J S, Simon D L, Garg S. A survey of intelligent control and health management technologies for aircraft propulsion system. Journal of Aerospace Computing, Information, and Communicaton, 2004, 1(1-2): 543-563.[4] Orme J S, Conners T R. Supersonic flight test results of a performance seeking control algorithm on a NASA-15 spacecraft. AIAA-1994-3210, 1994.[5] Gilyard G B, Orme J S. Performance-seeking control-program overview and future directions. AIAA-1993-3765-CP, 1993.[6] Simon D L, Garg S. A systematic approach for model-based aircraft engine performance estimation. AIAA-2009-1872, 2009.[7] Gilyard G B, Orme J S. Subsonic flight test evaluation of a performance seeking control algorithm on an F-15 airplane. AIAA-1992-3743, 1992.[8] Wu D. Research on aeronautical propulsion nonlinear performance seeking control. Xi'an: School of Power and Energy, Northwestern Polytechnical University, 2004. (in Chinese) 吴丹. 航空推进系统非线性性能寻优控制研究. 西安: 西北工业大学动力与能源学院, 2004.[9] Sun F C. Research on aero-engine performance seeking control. Nanjing: College of Energy and Power Engineering, Nanjing University of Aeronautics and Astronautics, 2009. (in Chinese) 孙丰诚. 航空发动机性能寻优控制技术研究. 南京: 南京航空航天大学能源与动力学院, 2009.[10] Zhu Y B, Fan S Q, Li H C, et al. A hybrid optimization based on linear programming and model-assisted pattern search method in PSC. AIAA-2006-1435, 2006.[11] Yuan C F, Yao H, Yang G. On-board real-time adaptive model of aero-engine. Acta Aeronautica et Astronautica Sinica, 2006, 27(4): 561-564. (in Chinese) 袁春飞, 姚华, 杨刚. 航空发动机机载实时自适应模型研究. 航空学报, 2006, 27(4): 561-564.[12] Ferguson P A. Distributed estimation and control technologies for formation flying spacecraft. Massachusetts: Department of Aeronautics and Astronautics, Massachusetts Institute of Technology, 2003.[13] Fu M Y, Deng Z L, Yan L P. Kalman filteringing with application in navigation systems. Beijing: Science Press, 2010. (in Chinese) 付梦印, 邓志红, 闫莉萍. Kalman滤波理论及其在导航系统中的应用. 北京: 科学出版社, 2010.[14] Pakmehr M, Fitzgerald N, Kiwada G, et al. Distributed modeling and control of turbofan systems. AIAA-2009-6271, 2009.[15] Yedavalli R K, Belapurkar R, Behbahani A. Stability analysis of distributed engine control systems under communication packet drop. AIAA-2008-4580, 2008.[16] Wang F. Research on aeroengine performance seeking control. Xi'an: School of Power and Energy, Northwestern Polytechnical University, 2005. (in Chinese) 王芳. 航空发动机性能寻优控制研究. 西安: 西北工业大学动力与能源学院, 2005.[17] OuYang Z. Research on aero-engine component perfermance tracking filtering. Xi'an: School of Power and Energy, Northwestern Polytechnical University, 2004. (in Chinese) 欧阳舟. 航空发动机部件性能跟踪滤波器研究. 西安: 西北工业大学动力与能源学院, 2004.[18] Yang Y X. Adaptive navigation and kinematic positioning. Beijing: Surveying and Mapping Press, 2006: 281-285. (in Chinese) 杨元喜. 自适应动态导航定位. 北京: 测绘出版社, 2006: 281-285.[19] Simon D L. An overview of the NASA aviation safety program propulsion health monitoring element. AIAA-2000-3624, 2000.[20] Behbahani A, Adibhatla S, Rauche C. Integrated model-based controls and PHM for improving turbine engine performance, reliability, and cost. 45th AIAA/ASME/SAE/ASEE Joint Propulsion Conference & Exhibit, 2009.[21] Kumar A, Viassolo D. Model-based fault tolerant control. NASA CR-2008-215273, 2008.[22] Ferguson P, How J. Decentralized estimation algorithms for formation flying spacecraft. AIAA-2003-5442, 2003. |