Analysis of a dual-arm mobile robot dynamics and balance compensation Online publication date: Mon, 26-Sep-2011
by Ting-Yu Zhang; Jian Jin; Guo-Xian Zhang
International Journal of Computer Applications in Technology (IJCAT), Vol. 41, No. 3/4, 2011
Abstract: The kinematic and dynamic behaviours of a robot manipulator on an elastic catenary cable were investigated. The dynamic equations of the robot and the cable were derived based on the Newton-Euler principle and Hamilton principle respectively. The recursive formulations describing the nonlinear and coupling dynamics relationship between the robot and the cable were presented. Based on the rigid-flexible coupling model proposed in this paper, a dynamic compensation technique with complementary control strategy was discussed which was implemented to adjust the posture of the robot and restrain the vibration that arise the flexible characteristics of the cable. The simulation and experiment results shown in this paper validate the effectiveness of the dynamic compensation.
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