In this paper, we develop theoretical foundations for a new class of rehabilitation robot: body powered devices that route power between a user’s joints. By harvesting power from a healthy joint to assist an impaired joint, novel bimanual and self-assist therapies are enabled. This approach complements existing robotic therapies aimed at promoting recovery of motor function after neurological injury. We employ hydraulic transmissions for routing power, or equivalently for coupling the motions of a user’s joints. Fluid power routed through flexible tubing imposes constraints within a limb or between homologous joints across the body. Variable transmissions allow constraints to be steered on the fly, and simple valve switching realizes free s...
This research aims to the development of an externally powered myoelectric (EMG) controlled robot ha...
This paper proposed a novel design using a torsion spring mechanism with a single fluidic muscle act...
The use of assistive robotics in healthcare is a relatively new concept which has been growing over ...
University of Minnesota Ph.D. dissertation. July 2021. Major: Mechanical Engineering. Advisor: Will...
Exoskeleton-based therapy is a growing area and can provide benefits over conventional manual therap...
The restoration of the walking function of paraplegic patients requires long and extensive training....
Individuals with acute neurological or limb-related disorders may be temporarily bedridden and unabl...
Ankle dysfunction is common in the public following injuries, especially for stroke patients. Most o...
Frequent and repetitive functional training of the upper limb is a key aspect of regaining independe...
Treatment intensity has a profound effect on motor recovery following neurological injury. The use o...
The Humanoid Walking Robot (HWR) is a research platform for the study of legged and wearable robots ...
The hydraulic exoskeleton is one research hotspot in the field of robotics, which can take heavy loa...
This paper presents a novel cable-driven robotic joint for a gait exoskeleton robot. We discussed in...
Loss of mobility and/or balance resulting from neural trauma is a critical public health issue. Robo...
Human balance and locomotion control is highly complex and not well understood. To understand how th...
This research aims to the development of an externally powered myoelectric (EMG) controlled robot ha...
This paper proposed a novel design using a torsion spring mechanism with a single fluidic muscle act...
The use of assistive robotics in healthcare is a relatively new concept which has been growing over ...
University of Minnesota Ph.D. dissertation. July 2021. Major: Mechanical Engineering. Advisor: Will...
Exoskeleton-based therapy is a growing area and can provide benefits over conventional manual therap...
The restoration of the walking function of paraplegic patients requires long and extensive training....
Individuals with acute neurological or limb-related disorders may be temporarily bedridden and unabl...
Ankle dysfunction is common in the public following injuries, especially for stroke patients. Most o...
Frequent and repetitive functional training of the upper limb is a key aspect of regaining independe...
Treatment intensity has a profound effect on motor recovery following neurological injury. The use o...
The Humanoid Walking Robot (HWR) is a research platform for the study of legged and wearable robots ...
The hydraulic exoskeleton is one research hotspot in the field of robotics, which can take heavy loa...
This paper presents a novel cable-driven robotic joint for a gait exoskeleton robot. We discussed in...
Loss of mobility and/or balance resulting from neural trauma is a critical public health issue. Robo...
Human balance and locomotion control is highly complex and not well understood. To understand how th...
This research aims to the development of an externally powered myoelectric (EMG) controlled robot ha...
This paper proposed a novel design using a torsion spring mechanism with a single fluidic muscle act...
The use of assistive robotics in healthcare is a relatively new concept which has been growing over ...