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Trajectory synthesis and physical admissibility for a biped robot during the single-support phase
138
Citations
13
References
2002
Year
Unknown Venue
Robot KinematicsGait AnalysisEngineeringBiped RobotField RoboticsMotor ControlLocomotion (Cellular Biology)StabilityKinesiologyPhysical AdmissibilityLegged RobotKinematicsHuman MotionRehabilitation EngineeringZmp TrajectoriesHumanoid RobotHealth SciencesDanceMechatronicsBiped WalkingLocomotion (Animal Biomechanics)Walking RobotsBipedal LocomotionRobot ControlAerospace EngineeringMechanical SystemsSingle-support PhaseHuman MovementRoboticsTrajectory Synthesis
The synthesis and verification of biped walking trajectories during the single-support phase is discussed. The biped is modeled as a seven-link twelve degree-of-freedom anthropomorphic robot. By utilizing the zero moment point (ZMP) and the equivalent force-moment, the physical admissibility of the biped walking is characterized. For physically realizable walking during the single-support phase, the trajectory of the ZMP on the ground must be inside the stable region of the supporting sole. A biped walking trajectory specified by eight pattern parameters is derived through inverse kinematics. ZMP trajectories for different walking patterns and the influence of the pattern parameters on the ZMP trajectories are presented.< <ETX xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">></ETX>
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