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Volume 34 Issue 02
Feb.  2008
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Journal of Beijing University of Aeronautics and Astronautics  > 2008  >  34(02): 153-157.
Dong Weijie, Liu Changhua, Song Huaet al. Human perceive system of simulative aircraft based on PIDNN[J]. Journal of Beijing University of Aeronautics and Astronautics, 2008, 34(02): 153-157. (in Chinese)
Citation: Dong Weijie, Liu Changhua, Song Huaet al. Human perceive system of simulative aircraft based on PIDNN[J]. Journal of Beijing University of Aeronautics and Astronautics, 2008, 34(02): 153-157. (in Chinese)
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Human perceive system of simulative aircraft based on PIDNN

  • 1.

    School of Automation Science and Electrical Engineering, Beijing University of Aeronautics and Astronautics, Beijing 100083, China

  • 2. Base of Flight Safety Civil Aviation Flight University of China, Chengdu 610000, China

  • Publish Date: 29 Feb 2008
    Abstract
  • A control scheme based on proportional integral differential neural network (PIDNN) was proposed to control the highly nonlinear and vulnerable simulative aircraft and sensing system. Firstly, the models of the human perceive system for the simulative aircraft was analyzed and studied, the system formula was ratiocinated consequently, and its disturbance from outside environment was analyzed theoretically. Then its superior function of PIDNN controller for its on-line training, learning and regulating ability were used to control the system in simulation environment. Comprising the all-ready used traditional proportional integral differential (PID) controllers, PIDNN has simpler structure, stronger adaptability and faster tracing ability without singularity. The simulation experiment result shows that the PIDNN has properties of quick response and nice steady accuracy, and has a well static and dynamic and robust character, so it can meet the need of real-time control.

     

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    • References(1)
  • [1] 李玉涛. 数字人感系统的研制 . 北京: 北京航空航天大学自动化科学与电气工程学院, 200l Li Yutao. Design of digital human perceive system . Beijing: School of Automation Science and Electrical Engineering, Beijing University of Aeronautics and Astronautics, 2001(in Chinese) [2] 冯慧. 侧杆操纵中人感系统对人机耦合的影响分析 . 北京:北京航空航天大学自动化科学与电气工程学院,2004 Feng Hui. Analysis of human machine coupling effect on human perceive system in side pole control . Beijing: School of Automation Science and Electrical Engineering, Beijing University of Aeronautics and Astronautics, 2004(in Chinese) [3] 沈东凯,华清,王占林. 基于神经网络的电动加载系统[J].航空学报,2002, 23(6):255-259 Shen Dongkai, Hua Qing, Wang Zhanlin. Electro load system base on neutral network[J]. Acta Aeronautica Et Astronautica Sinica, 2002, 23(6):255-259(in Chinese) [4] 刘金琨. 智能控制[M]. 北京:电子工业出版社,2002:245-266 Liu Jinkun. Intelligent control[M]. Beijing: Publishing House of Electronics Industry, 2002: 245-266(in Chinese) [5] 徐丽娜. 神经网络控制[M]. 北京:电子工业出版社,2003:69-80 Xu Lina. Neutral network control[M]. Beijing: Publishing House of Electronics Industry, 2003: 69-80(in Chinese) [6] 董新民,王小平. 飞行模拟器电动式纵向操纵人感系统的研究 王小平. 中国航空学会第八次飞行器控制与操纵学术交流会论文集. 湖北襄樊: 中国航空学会,1999:92-96 Dong Xinmin, Wang Xiaoping. Study of electro simulative aircraft longitudinal control human perceive system Wang Xiaoping. The 8th Chinese Society of Aeronautics and Astronautics Conference On Aircraft Control and Operation. Xiangfan, Hubei: Chinese Society of Aeronautics and Astronautics, 1999:92-96(in Chinese) [7] Hess R A. Analyzing manipulator and feel system effects in aircraft flight control[J]. IEEE Transactions on Systems, Man, and Cybernetic, 1990,20(4):923-931 [8] 林用满,林土胜. 基于PID神经网络的后非线性盲源分离算法[J]. 数据采集与处理,2006, 21(3):260-265 Lin Yongman, Lin Tusheng. Post-nonlinear blind source separation based on PID neural network[J]. Data Sample and Process, 2006, 21(3):260-265(in Chinese) [9] Shu Huailin, Pi Youguo. PID neural networks for time-delay systems[J]. Computer and Chemical Engineering, 2000, 24(7):859-862 [10] 舒怀林. 神经元控制系统[M]. 北京:国防工业出版社, 2006:156-168 Shu Huailin. PIDNN control system[M]. Beijing: National Defence Industry Press, 2006:156-168(in Chinese)
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