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ON THE BALANCING CONTROL OF HUMANOID ROBOT
Author(s) -
Youngjin Choi,
Doik Kim
Publication year - 2007
Language(s) - English
Resource type - Conference proceedings
DOI - 10.5220/0001623302480252
Subject(s) - humanoid robot , kinematics , jacobian matrix and determinant , control theory (sociology) , robot , controller (irrigation) , computer science , robot kinematics , robot control , trajectory , control engineering , simulation , mobile robot , artificial intelligence , engineering , control (management) , mathematics , physics , classical mechanics , astronomy , agronomy , biology
This paper proposes the kinematic resolution method of CoM(center of mass) Jacobian with embedded motions and the design method of posture/walking controller for humanoid robots. The kinematic resolution of CoM Jacobian with embedded motions makes a humanoid robot balanced automatically during movement of all other limbs. Actually, it offers an ability of WBC(whole body coordination) to humanoid robot. Also, we prove that the proposed posture/walking controller brings the ISS(disturbance input-to-state stability) for the simplified bipedal walking robot model.

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