机械臂的笛卡尔基预测控制

ISIE '93 - Budapest: IEEE International Symposium on Industrial Electronics Conference Proceedings Pub Date : 1993-06-01 DOI:10.1109/ISIE.1993.268717

C. Ozsoy, R. Kazan

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引用次数: 3

摘要

针对机械臂系统末端执行器的运动，提出了一种多输入多输出(MIMO)控制的自回归积分移动平均(CARIMA)模型，该模型的输入向量为关节力矩，输出向量为夹持器的速度，以世界坐标系表示。由于机械臂是时变系统，由于载荷和关节间摩擦的变化，采用最小二乘算法在线递归更新MIMO模型参数。然后，通过最小化包含夹持器位置误差和与扭矩矢量相关的能量的二次性能准则，设计了自整定型预测控制器，以控制末端执行器的位置。通过数字仿真研究，验证了该预测控制器在不同工况下的性能

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Cartesian base predictive control of robotic manipulators

A multi-input multi-output (MIMO) controlled auto regressive integrated moving average (CARIMA) model which has the input vector consisting of the joint torques and the output vector consisting of the velocities of the gripper expressed in the world coordinate system, is proposed for the motion of the end-effector of a robotic manipulator system. Since the manipulator is a time-varying system, because of changing of the load and the friction between the joints the proposed MIMO model parameters are updated recursively online by the least squares (RLS) algorithm. A self-tuning type predictive controller is then designed by minimizing a quadratic performance criterion which includes the position error of the gripper and the energy associated with the torque vector, to control the position of the end-effector. The performance of the predictive controller is tested under varying operating conditions by digital simulation studies.<>

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ISIE '93 - Budapest: IEEE International Symposium on Industrial Electronics Conference Proceedings

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