论文信息 - Feedback control for Underactuated Trussed Robot Finger

Feedback control for Underactuated Trussed Robot Finger

Underactuated Trussed Robot Finger is a newly proposed underactuated robot. Based on its physical structure, dynamic model is established by using the Lagrange mechanics method. Moreover, the nonlinear system's properties are analyzed, including non-integrity and stablizability. Besides, the control goal is considered as being stabilized in the vertical equilibrium point. To achieve this goal, feedback control law is proposed by using pole placement method. Then simulation is conducted in MATLAB/Simulink environment. Simulation results indicate that the feedback control rule can effectively realize the goal of stabilizing the robot finger in the vertical equilibrium point. It can satisfy that the designed control rules are correct and effective, and the system has anti-interference ability.

Xianlin Huang | Hongqian Lu | Shuchen Ding

[1] Rogelio Lozano,et al. Energy based control of the Pendubot , 2000, IEEE Trans. Autom. Control..

[2] Mingjun Zhang,et al. Hybrid control of the Pendubot , 2002 .

[3] Zhu Dong-fang. Position synchronization of a class of underactuated Lagrangian systems , 2010 .

[4] Arjan van der Schaft,et al. Dynamics and control of a class of underactuated mechanical systems , 1999, IEEE Trans. Autom. Control..

[5] Giuseppe Oriolo,et al. Underactuated Manipulators: Control Properties and Techniques , 2003 .

[6] Kevin M. Passino,et al. Intelligent Control for a Robotic Acrobat , 1997 .

[7] Antonello Rizzi,et al. Implementation of a Fuzzy Control System for a Parallel Hybrid Vehicle Powertrain on CompactRio , 2013 .

[8] Lai Xu. FUZZY AND VARIABLE STRUCTURE CONTROL OF A CLASS OF UNDERACTUATED MECHANICAL SYSTEMS , 2001 .