Smart Material Based Complex Mode Active Control of Flexible Manipulators with Kinematic Redundancy 被引量：1

基于机敏材料的冗余度柔性机器人复模态主动控制(英文)

下载PDF

导出

摘要 An active control methodology is presented for suppressing the vibratoryresponse of flexible redundant manipulators with bonded piezoceramic actuators and strain gagesensors. Firstly, the dynamic equation of the manipulator is decoupled by means of the complex modetheory and the state-space expression of the controlled system is developed. Secondly, a continuouslinear quadratic regulator (LQR) state feedback controller is designed based on the minimumprinciple. Thirdly, a full-order Luenberger state observer featuring an assigned degree of stabilityis determined via the duality between control and estimation. Finally, a numerical simulation iscarried out on a planar 3R flexible redundant manipulator. The simulation results reveal that thedynamic performance of the system is improved rapidly and significantly. An active control methodology is presented for suppressing the vibratoryresponse of flexible redundant manipulators with bonded piezoceramic actuators and strain gagesensors. Firstly, the dynamic equation of the manipulator is decoupled by means of the complex modetheory and the state-space expression of the controlled system is developed. Secondly, a continuouslinear quadratic regulator (LQR) state feedback controller is designed based on the minimumprinciple. Thirdly, a full-order Luenberger state observer featuring an assigned degree of stabilityis determined via the duality between control and estimation. Finally, a numerical simulation iscarried out on a planar 3R flexible redundant manipulator. The simulation results reveal that thedynamic performance of the system is improved rapidly and significantly.

作者宋轶民张策余跃庆

机构地区 School of Mechanical Engineering School of Mechanical Engineering

出处《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2004年第4期240-245,共6页 中国航空学报（英文版）

基金 NationalNaturalScienceFoundationofChina( 5 9975 0 0 1,5 0 2 0 5 0 19)

关键词 flexible manipulator kinematic redundancy active control smart material complex mode flexible manipulator kinematic redundancy active control smart material complex mode

分类号 TP242 [自动化与计算机技术—检测技术与自动化装置]

引文网络
相关文献

参考文献4

1Yue S G. Redundant robot manipulators with joint and link flexibility- I. dynamic motion planning for minimum end-effector deformation[J]. Mechanism and Machine Theory, 1998,33(2): 103- 113.
2Zhang X P, Yu Y Q. Motion control of flexible robot manipulators via optimizing redundant configurations [ J ]. Mechanism and Machine Theory, 2001, 36(7): 883 - 892.
3宋轶民,余跃庆,张策.Active Control of Elastodynamic Response of Flexible Redundant Robot Manipulators[J].Chinese Journal of Aeronautics,2002,15(2):109-114. 被引量：2
4刘豹.现代控制理论[M].第二版.北京:机械工业出版社,1999.272-282.Liu B. Modern control theory [M]. 2nd Edition. Beijing:China Machine Press, 1999. 272 -282. (in Chinese)

二级参考文献3

1Yue S G. Redundant robot manipulators with joint and link flexibility-I Dynamic motion planning for minimum end-effector deformation [J]. Mechanism and Machine Theory,1998, 33(2): 103-113.
2Zhang X P, Yu Y Q. Motion control of flexible robot manipulators via optimizing redundant configurations[J ].Mechanism and Machine Theory, 2001,36 (7):883-892.
3刘豹．现代控制理论[M]．第二版．北京：机械工业出版社，1999．73-74；272—276．

共引文献1

1屠立,周丕宣,张树有.柔性机械手机械结构与自适应控制全局优化设计[J].农业机械学报,2008,39(8):128-134. 被引量：2

同被引文献7

1Zhang C, Grandin H T. Optimum design of flexible mechanisms[J]. ASME Trans, Journal of Mechanisms Transmissions, and Automation in Design, 1983, 105 (2): 267-272.
2Thompson B S, Sung C K. A theoretical and experimental study of the response of linkage mechanisms fabricated with composite laminates [ J ]. Journal of Sound and vibration,1986, 111(3): 399-429.
3Oliver J H, Wysocki D A, Thompson B S. Synthesis of flexible linkages by balancing the tracer point quasi-static deflections using microprocessor and advanced material technologies[J]. Mechanism and Machine Theory, 1985, 20(2) : 103 -114.
4Sung C K, Chen Y C. Vibration control of the elastodynamic response of high-speed flexible linkage mechanisms [ J ].ASME Trans Journal of Vibration and Acoustics, 1991, 113(1): 14-21.
5Liao C Y, Sung C K. An elastodynamic analysis and control of flexible linkages using piezoeeramic sensors and actuators[J]. ASME Trans Journal of Mechanical Design, 1993, 115(9): 658-665.
6Choi S B, Cheong C C, Thompson B S. Vibration control of flexible linkages mechanisms using piezoelectric films [J].Mechanism and Machine Theory, 1994, 29(4) : 535 - 546.
7Thompson B S, Tao X. Note on the experimentally-determined elastodynamic response of a slider-crank mechanism featuring a macroscopically-smart connecting-rod with ceramic piezoelectric actuators and gage sensorsEA]. In: Proceedings of the 1994 ASME Design Technical Conference[C]. 1994.63 - 69.

引证文献1

1宋轶民,张策,余跃庆.Active Vibration Control of Macroscopically Smart Mechanisms[J].Chinese Journal of Aeronautics,2005,18(3):273-278.

1宋轶民,张永新,张策,余跃庆.冗余度柔性机器人复模态振动主动控制[J].中国机械工程,2004,15(6):546-548. 被引量：2
2宋轶民,余跃庆,张策.Active Control of Elastodynamic Response of Flexible Redundant Robot Manipulators[J].Chinese Journal of Aeronautics,2002,15(2):109-114. 被引量：2
3宋轶民,余跃庆,张策,马金盛.基于机敏材料的冗余度柔性机器人弹性动力响应最优控制[J].机械工程学报,2003,39(1):123-127. 被引量：5
4吴志敏,石章林.结构复模态振型的三维动画显示[J].成都科技大学学报,1990(3):13-20.
5戴永耀.机敏材料—一种新型功能材料[J].材料工程,1992,20(4):52-53.
6杨建良,向清,郭照华,黄德修.机敏材料中的光纤传感与信号处理技术[J].压电与声光,1997,19(3):161-166. 被引量：1
7宋轶民,张策,杨通强,余跃庆.冗余度柔性机器人复模态弹性动力分析[J].机械科学与技术,2004,23(7):780-782.
8姚熹.材料机敏化与智能化的若干问题[J].西安交通大学学报,1996,30(4):18-29. 被引量：7
9唐功友,李娟,张勇.时滞系统基于对偶原理的故障诊断[J].控制理论与应用,2008,25(5):966-969. 被引量：4
10杨建良,向清,黄德修,郭照华.一种新颖的光纤传感阵列及其神经网络处理——适用于机敏材料与结构的损伤监测[J].仪器仪表学报,1997,18(5):542-545. 被引量：3

Chinese Journal of Aeronautics

2004年第4期

浏览历史

内容加载中请稍等...