esign of a therapeutic robotic companion for relational, affective touch
2、Adaptive control of a variable-impedance ankle-foot orthosis to assist
drop-foot gait
3、Gravity-Balancing Leg Orthosis and Its Performance Evaluation
4、Design and Evaluation of the LOPES Exoskeleton Robot for Interactive Gait
Rehabilitation
5、An exoskeleton for gait rehabilitation: Prototype design and control
principle
6、An actuator with physically variable stiffness for highly dynamic legged
locomotion
7、Biomechanical Design of a Powered Ankle-Foot Prosthesis
8、An exotendondriven, rotary series elastic actuator for exerting joint torque
9、Development of a roesign of a therapeutic robotic companion for relational, affective touch
2、Adaptive control of a variable-impedance ankle-foot orthosis to assist
drop-foot gait
3、Gravity-Balancing Leg Orthosis and Its Performance Evaluation
4、Design and Evaluation of the LOPES Exoskeleton Robot for Interactive Gait
Rehabilitation
5、An exoskeleton for gait rehabilitation: Prototype design and control
principle
6、An actuator with physically variable stiffness for highly dynamic legged
locomotion
7、Biomechanical Design of a Powered Ankle-Foot Prosthesis
8、An exotendondriven, rotary series elastic actuator for exerting joint torque
9、Development of a roesign of a therapeutic robotic companion for relational, affective touch
2、Adaptive control of a variable-impedance ankle-foot orthosis to assist
drop-foot gait
3、Gravity-Balancing Leg Orthosis and Its Performance Evaluation
4、Design and Evaluation of the LOPES Exoskeleton Robot for Interactive Gait
Rehabilitation
5、An exoskeleton for gait rehabilitation: Prototype design and control
principle
6、An actuator with physically variable stiffness for highly dynamic legged
locomotion
7、Biomechanical Design of a Powered Ankle-Foot Prosthesis
8、An exotendondriven, rotary series elastic actuator for exerting joint torque
9、Development of a roesign of a therapeutic robotic companion for relational, affective touch
2、Adaptive control of a variable-impedance ankle-foot orthosis to assist
drop-foot gait
3、Gravity-Balancing Leg Orthosis and Its Performance Evaluation
4、Design and Evaluation of the LOPES Exoskeleton Robot for Interactive Gait
Rehabilitation
5、An exoskeleton for gait rehabilitation: Prototype design and control
principle
6、An actuator with physically variable stiffness for highly dynamic legged
locomotion
7、Biomechanical Design of a Powered Ankle-Foot Prosthesis
8、An exotendondriven, rotary series elastic actuator for exerting joint torque
9、Development of a roesign of a therapeutic robotic companion for relational, affective touch
2、Adaptive control of a variable-impedance ankle-foot orthosis to assist
drop-foot gait
3、Gravity-Balancing Leg Orthosis and Its Performance Evaluation
4、Design and Evaluation of the LOPES Exoskeleton Robot for Interactive Gait
Rehabilitation
5、An exoskeleton for gait rehabilitation: Prototype design and control
principle
6、An actuator with physically variable stiffness for highly dynamic legged
locomotion
7、Biomechanical Design of a Powered Ankle-Foot Prosthesis
8、An exotendondriven, rotary series elastic actuator for exerting joint torque
9、Development of a ro