论文信息 - Inverse Kinematics of Robot Manipulators with Multiple Moving Control Points

Inverse Kinematics of Robot Manipulators with Multiple Moving Control Points

The growing research area of physical Human-Robot Interaction (pHRI) claims for safe robot control algorithms in the presence of humans. Managing kinematic redundancy via fast techniques is also mandatory for interaction tasks with humans. It is worth noticing that control points on a manipulator can change, e.g., depending on possible multiple collisions (intentional or accidental) with the interacting users. An approach is presented for changing the control point in real time with corresponding proper inverse kinematics. Whole-body modelling is adopted for such a task. A simulation case study is proposed.

Bruno Siciliano | Agostino De Santis

[1] G. Hirzinger,et al. The skeleton algorithm for self-collision avoidance of a humanoid manipulator , 2007, 2007 IEEE/ASME international conference on advanced intelligent mechatronics.

[2] Bruno Siciliano,et al. The multiple virtual end-effectors approach for human-robot interaction , 2006, ARK.

[3] Antonio Bicchi,et al. An atlas of physical human-robot interaction , 2008 .

[4] Bruno Siciliano,et al. Modelling and Control of Robot Manipulators , 1997, Advanced Textbooks in Control and Signal Processing.

[5] Christoph Borst,et al. A Humanoid Two-Arm System for Dexterous Manipulation , 2006, 2006 6th IEEE-RAS International Conference on Humanoid Robots.

[6] B. Siciliano,et al. Second-order kinematic control of robot manipulators with Jacobian damped least-squares inverse: theory and experiments , 1997 .

[7] Agostino De Santis,et al. Modelling and control for human–robot interaction , 2008 .