Product Details
- Government, Healthcare, Academia
- Healthcare
The Platform
Ready to Work Together?
- (412) 301-5083
- [email protected]
- Pittsburgh, PA USA
About Project
One of the grand challenges in the proliferation of powered robotic limbs is thought to be the ease of controlling these complex systems by their human users and the versatility of their control algorithms across a variety of users and activity types. The Open Source Leg was born in response to the need for a portable, powered, product-like leg to serve as a common development platform. The growing community of researchers and developers, now with support from Humotech, which provides fully-assembled legs as well as assembly packages, are pursuing a wide variety of novel approaches to prosthetic leg control.
The Humotech OSL Community
University of Michigan
Department of Robotics
Mechanical Engineering
Neurobionics Lab
Elliott Rouse
Louis Stokes Cleveland VA Medical Center
Advanced Platform Technology Center
Case Western University
Neural Engineering Center
Hamid Charkhkar
University of Notre Dame
College of Engineering
Wearable Robotics Laboratory
Edgar Bolívar-Nieto
Patrick Wensing
Nottingham Trent University
Department of Engineering
William Navaraj
Imperial College London
Department of Bioengineering
Neuromechanics and Rehabilitation Technology
Dario Farina
The University of Texas at Austin
Texas Robotics
Cockrell School of EngineeringWalker Department of Mechanical Engineering
Nick Fey
Florida State University
College of Engineering
Taylor Higgins
The OSL Community At Large
Humotech Features
Press Release: University of Michigan, Humotech partner to bring open-source bionic leg to research labs
The open-source, artificially intelligent prosthetic leg designed by researchers at the University of Michigan will be brought to the research market by Humotech, a Pittsburgh-based assistive technology company.
The goal of the collaboration is to speed the development of control software for robotic prosthetic legs, which have the potential to provide the power and natural gait of a human leg to prosthetic users.
Featured Press
U-M, Humotech partner to bring open-source bionic leg to research labs
Featured Research Publications
Emulating the effective ankle stiffness of commercial prosthetic feet using a robotic prosthetic foot emulator: a methods and validation study
Halsne EG, Curran CS, Caputo JM, Hansen AH, Hafner BJ, Morgenroth DC. (2022) ASME Journal of Biomechanical Engineering.
Prosthetic forefoot and heel stiffness across consecutive foot stiffness categories and sizes
Turner AT, Halsne EG, Caputo JM, Curran CS, Hansen AH, Hafner BJ, Morgenroth DC. (2022) PLOS ONE.
Comparing forefoot and heel stiffnesses across commercial prosthetic feet manufactured for individuals with varying body weights and foot sizes
Ruxin T, Halsne EG, Turner AT, Caputo JM, Curran CS, Hansen AH, Hafner BJ, Morgenroth DC. (2022) Prosthetics & Orthotics International.
Effects of shear force reduction during mechanical testing and day-to-day variation on stiffness of commercial prosthetic feet: a technical note
Halsne EG, Turner AT, Curran CS, Hansen AH, Hafner BJ, Caputo JM, Morgenroth DC. (2022) Prosthetics & Orthotics International.
Ready to Work Together?
- (412) 301-5083
- [email protected]
- Pittsburgh, PA USA
