Add to ORKG信州大学(Shinshu university)博士(工学)ThesisLI YI. PVC gel based artificial muscle development and its application on walking assist wear(PVC ゲル人工筋肉の開発と歩行アシストウェアへの応用). 信州大学, 2015, 博士論文. 博士(工学), 甲第650号, 平成28年03月20日授与.doctoral thesi
A need exists for artificial muscles that are silent, soft, and compliant, with performance characte...
With its low birthrate, Japan currently faces an aging issue. As the senior population gradually inc...
Successful motor rehabilitation after stroke or traumatic brain/spinal cord injures requires ahighly...
Polymer materials based artificial muscles have the properties of being soft, lightweight, and flexi...
A poly vinyl chloride (PVC) gel actuator shows great potential for use as an artificial muscle becau...
A transparent and electroactive plasticized polyvinyl chloride (PVC) gel was investigated to use as ...
Artificial muscles that can be used in mechanical devices are created to replace human muscles. They...
An artificial muscle with strength and speed equal to that of a human muscle may soon be possible....
This study proposes a lower-limb exoskeleton system that is controlled by a wearer's muscle activity...
Polyvinyl chloride (PVC) gels are an electroactive polymer smart material which has been considered ...
This study proposed and developed an underactuated exoskeleton to support external load-carrying and...
Assistive technologies traditionally rely on either strong actuation or passive structures to provid...
Abstract: The successful motor rehabilitation of stroke, traumatic brain/spinal cord/sport injured p...
To study human locomotor adaptation and feasibility, we used a lower limb robotic exoskeleton contro...
Walking rehabilitation using exoskeletons is of high importance to maximize independence and improve...
A need exists for artificial muscles that are silent, soft, and compliant, with performance characte...
With its low birthrate, Japan currently faces an aging issue. As the senior population gradually inc...
Successful motor rehabilitation after stroke or traumatic brain/spinal cord injures requires ahighly...
Polymer materials based artificial muscles have the properties of being soft, lightweight, and flexi...
A poly vinyl chloride (PVC) gel actuator shows great potential for use as an artificial muscle becau...
A transparent and electroactive plasticized polyvinyl chloride (PVC) gel was investigated to use as ...
Artificial muscles that can be used in mechanical devices are created to replace human muscles. They...
An artificial muscle with strength and speed equal to that of a human muscle may soon be possible....
This study proposes a lower-limb exoskeleton system that is controlled by a wearer's muscle activity...
Polyvinyl chloride (PVC) gels are an electroactive polymer smart material which has been considered ...
This study proposed and developed an underactuated exoskeleton to support external load-carrying and...
Assistive technologies traditionally rely on either strong actuation or passive structures to provid...
Abstract: The successful motor rehabilitation of stroke, traumatic brain/spinal cord/sport injured p...
To study human locomotor adaptation and feasibility, we used a lower limb robotic exoskeleton contro...
Walking rehabilitation using exoskeletons is of high importance to maximize independence and improve...
A need exists for artificial muscles that are silent, soft, and compliant, with performance characte...
With its low birthrate, Japan currently faces an aging issue. As the senior population gradually inc...
Successful motor rehabilitation after stroke or traumatic brain/spinal cord injures requires ahighly...