Add to ORKGThis paper reports on the development of a roller-cam clutch mechanism. This mechanism can transfer bidirectional torque with high backdrivability, as well as increase actuation energy efficiency, in electrical exoskeleton robots. The developed mechanism was installed at the robot knee joint and unclutched during the swing phase which uses less metabolic energy, thereby functioning as a passive joint. The roller-cam clutch aimed to increase actuation energy efficiency while also producing high backdrivability by generating zero impedance for users during the swing phase. To develop the mechanism, mathematical modeling of the roller-cam clutch was conducted, with the design having more than three safety factors following optimization. Titani...
Musculoskeletal disorders are caused by repetitive tasks of a specific body part, uncomfortable wor...
Parallel elastic actuators (PEAs) have shown the ability to reduce the energy consumption of robots....
This study developed the Hanyang Exoskeleton Assistive Robot (HEXAR)-CR50 aimed at improving muscle ...
Despite decades of academic and industry effort, achieving efficient and dynamic movementof robots r...
Enhancing the physical abilities of the human body is desirable for a number of reasons. These reaso...
Abstract—The cyclic and often linear torque-angle relationship of locomotion presents the opportunit...
Evolution had played a significant role in structuring on how humans stand, walk or run. The nervous...
This paper identifies the class of actuators called clutched elastic actuators (CEAs). CEAs use clut...
The cyclic and often linear torque-angle relationship of locomotion presents the opportunity to inn...
An exoskeleton has to be lightweight, compliant, yet powerful to fulfill the demanding task of walki...
Thesis (S.B.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2010.Cataloge...
A non-back drivable mechanism (transmission or clutches) is a device able to transmit torques from i...
Lumbar support exoskeletons with active and passive actuators are currently the cutting-edge technol...
This study presents a passively variable threshold torque Spring-Clutch (PVSC). When human beings an...
Lower-limb exoskeletons are an emerging technology to provide walking assistance to people who have ...
Musculoskeletal disorders are caused by repetitive tasks of a specific body part, uncomfortable wor...
Parallel elastic actuators (PEAs) have shown the ability to reduce the energy consumption of robots....
This study developed the Hanyang Exoskeleton Assistive Robot (HEXAR)-CR50 aimed at improving muscle ...
Despite decades of academic and industry effort, achieving efficient and dynamic movementof robots r...
Enhancing the physical abilities of the human body is desirable for a number of reasons. These reaso...
Abstract—The cyclic and often linear torque-angle relationship of locomotion presents the opportunit...
Evolution had played a significant role in structuring on how humans stand, walk or run. The nervous...
This paper identifies the class of actuators called clutched elastic actuators (CEAs). CEAs use clut...
The cyclic and often linear torque-angle relationship of locomotion presents the opportunity to inn...
An exoskeleton has to be lightweight, compliant, yet powerful to fulfill the demanding task of walki...
Thesis (S.B.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2010.Cataloge...
A non-back drivable mechanism (transmission or clutches) is a device able to transmit torques from i...
Lumbar support exoskeletons with active and passive actuators are currently the cutting-edge technol...
This study presents a passively variable threshold torque Spring-Clutch (PVSC). When human beings an...
Lower-limb exoskeletons are an emerging technology to provide walking assistance to people who have ...
Musculoskeletal disorders are caused by repetitive tasks of a specific body part, uncomfortable wor...
Parallel elastic actuators (PEAs) have shown the ability to reduce the energy consumption of robots....
This study developed the Hanyang Exoskeleton Assistive Robot (HEXAR)-CR50 aimed at improving muscle ...