We present a mathematical method for acceleration workspace analysis of cooperating multi-finger robot systems using a model of point-contact with friction.A new unified formulation from dynamic equations of cooperating multi-finger robots is derived considering the force and acceleration relationships between the fingers and the object to be handled.From the dynamic equation,maximum translational and rotational acceleration bounds of an object are calculated under given constraints of contact conditions,configurations of fingers,and bounds on the torques of joint actuators for each finger.Here,the rotational acceleration bounds can be applied as an important manipulability index when the multi-finger robot grasps an object.To verify the proposed method,we used a set of case studies with a simple multi-finger mechanism system.The achievable acceleration boundary in task space can be obtained successfully with the proposed method and the acceleration boundary depends on the configurations of fingers.
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