Integration of Torque Controlled Arm with Velocity Controlled Base for Mobile Manipulation: An Application to Aircraft Canopy Polishing
نویسندگان
چکیده
A mobile manipulation system often involves combining more than one robot together, typically a manipulator arm and a mobile base. To implement a force and motion control with dynamic compensation, a torque-controlled system is necessary. However, a torque-controlled robot is not always available. In fact, most commercially available mobile bases are velocity-controlled. This paper presents a method for combining a torquecontrolled arm and a velocity-controlled base, while performing a force and motion task. The operational space formulation using a consistent set of integrated arm-base robot dynamics is employed in a mobile manipulation task of polishing an aircraft canopy. The torque controlled arm compensates for the dynamics introduced by the mobile base. The added mobility of the base enables the arm to cover the entire workspace.
منابع مشابه
Compliant motion using a mobile manipulator: an operational space formulation approach to aircraft canopy polishing
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