论文信息 - Control configuration for upper limb rehabilitation robotic systems

Control configuration for upper limb rehabilitation robotic systems

It is important to design control configuration for medical robots to allow high fidelity human robot interactions. This paper considers the control configuration for upper limb rehabilitation robotic systems. The considered 11-DOF exoskeleton-type robot enables an grasping motion, an elbow actuation, three wrist actuations, three gleno-humeral joint actuations and another three axis linear actuations corresponds to shoulder joint center movements. The overall control configuration guarantees high-speed control bandwidth of 2 kHz which is enough to algorithm implementations. A position/admittance controllers as well as gravity compensator are developed for each joints to provide high quality therapeutic procedures.

Chul Seung Kim | Hyuk Jin Lee | Jang Ho Cho | Hyun Soo Woo

[1] Anders Robertsson,et al. Flexible application development and high-performance motion control based on external sensing and reconfiguration of ABB industrial robot controllers , 2010, ICRA 2010.

[2] Hyung-Soon Park,et al. Developing an Intelligent Robotic Arm for Stroke Rehabilitation , 2007, 2007 IEEE 10th International Conference on Rehabilitation Robotics.

[3] Chul Seung Kim,et al. Development of a 4 DOF exoskeleton robot for elbow and wrist rehab , 2014, 2014 14th International Conference on Control, Automation and Systems (ICCAS 2014).

[4] Hermano I Krebs,et al. Rehabilitation robotics: pilot trial of a spatial extension for MIT-Manus , 2004, Journal of NeuroEngineering and Rehabilitation.

[5] W. Harwin,et al. The effect of GENTLE/s robot mediated therapy on upper extremity function post stroke , 2003 .