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Design and implementation of 2DOF spherical inverted pendulum
引用本文:Cong Shuang & Zhang DongjunDepartment of Automation,University of Science & Technology of China,Hefei 230027,P. R. China,Department of EEE,Hong Kong University of Science and Technology,Hong Kong 00852,P.R. China. Design and implementation of 2DOF spherical inverted pendulum[J]. 系统工程与电子技术(英文版), 2005, 16(1)
作者姓名:Cong Shuang & Zhang DongjunDepartment of Automation  University of Science & Technology of China  Hefei 230027  P. R. China  Department of EEE  Hong Kong University of Science and Technology  Hong Kong 00852  P.R. China
作者单位:Cong Shuang & Zhang DongjunDepartment of Automation,University of Science & Technology of China,Hefei 230027,P. R. China;Department of EEE,Hong Kong University of Science and Technology,Hong Kong 00852,P.R. China
基金项目:ThisprojectwassupportedbytheNationalNaturalScienceFoundationofChina(50375148)
摘    要:1.INTRODUCTION Theinvertedpendulumsystemisaclassicalbench markfortheeducationandresearchintheautomation andmechanicalengineeringfield.Manyeducatorsfo cusontheinvertedpendulumcontrolsystembecause theexperimentsexhibittheadvantageandvalidityof moderncontroltheoryveryintuitively.Researchers alsohopetoverifynewalgorithmsonthesystem. Thebasicobjectiveoftheinverted pendulumsystem iskeepingthebalanceofthependulumatthe‘invert ed’status[1~3].Wehavecomparedtheperformance ofthreemoderncontrolm…


Design and implementation of 2DOF spherical inverted pendulum
CONG Shuang,Zhang Dongjun. Design and implementation of 2DOF spherical inverted pendulum[J]. Journal of Systems Engineering and Electronics, 2005, 16(1)
Authors:CONG Shuang  Zhang Dongjun
Affiliation:1. Department of Automation, University of Science & Technology of China, Hefei 230027, P. R. China
2. Department of EEE, Hong Kong University of Science and Technology, Hong Kong 00852, P.R. China
Abstract:The dynamics of 2DOF spherical inverted pendulum system is analyzed. The motion of the pendulum may be projected onto the orthogonal planes in the Cartesian Space. In this way the system can be decoupled into two classical cart-pendulum systems and the design of controllers aimed at each subsystem separately are proposed. The linear quadratic optimal control strategy is applied in order to balance the pendulum system at the 'inverted' status. The method proposed is verified by the simulation and actual system experiments and the performance of the controller is discussed.
Keywords:DOF spherical inverted pendulum   nonlinear system   optimal control   LQY.
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