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Using a multi-objective controller to synthesize simulated humanoid robot motion with changing contact configurations
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2011
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Robot KinematicsEngineeringField RoboticsAdvanced Motion ControlContact ConfigurationsConsistent MotionKinesiologySoft RoboticsAttached VideoSystems EngineeringKinematicsRobot LearningHumanoid RobotHealth SciencesMotion SynthesisDesignMechatronicsMulti-objective ControllerRobot ControlEvolutionary RoboticsAerospace EngineeringMechanical SystemsMulti-objective ControlHuman MovementRobotics
Our objective in this work is to synthesize dynamically consistent motion for a simulated humanoid robot in acyclic multi-contact locomotion using multi-objective control. We take as an input a planned sequence of static postures that represent the contact configuration transitions; a multi-objective controller then synthesizes the motion between these postures, the objectives of the controller being decided by a finite-state machine. Results of this approach are presented in the attached video in the form of playback motions generated through non-real-time constraint-based dynamic simulations.