Modular Design of a Passive, Low-Cost Prosthetic Knee Mechanism to Enable Able-Bodied Kinematics for Users With Transfemoral Amputation
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There is a significant need for low-cost, high-performance prosthetic knee technology for transfemoral amputees in India. Replicating able-bodied gait in amputees is biomechanically necessary to reduce the metabolic cost, and it is equally important to mitigate the socio-economic discrimination faced by amputees in developing countries due to their conspicuous gait deviations. This paper improves upon a previous study of a fully passive knee mechanism, addressing the issues identified in its user testing in India. This paper presents the design, analysis and bench-level testing of the three major functional modules of the new prosthetic knee architecture: (i) a four-bar latch mechanism for achieving stability during stance phase of walking, (ii) an early stance flexion module designed by implementing a fully adjustable mechanism, and (iii) a hydraulic rotary damping system for achieving smooth and reliable swing-phase control.
Date issued
2017-08Department
MIT-SUTD Collaboration; Massachusetts Institute of Technology. Department of Mathematics; Massachusetts Institute of Technology. Department of Mechanical Engineering; Sloan School of ManagementJournal
Volume 5B: 41st Mechanisms and Robotics Conference
Publisher
ASME International
Citation
Berringer, Molly A., Paige J. Boehmcke, Jason Z. Fischman, Athena Y. Huang, Youngjun Joh, J. Cali Warner, V. N. Murthy Arelekatti, Matthew J. Major, and Amos G. Winter. “Modular Design of a Passive, Low-Cost Prosthetic Knee Mechanism to Enable Able-Bodied Kinematics for Users With Transfemoral Amputation.” Volume 5B: 41st Mechanisms and Robotics Conference (August 6, 2017).
Version: Final published version
ISBN
978-0-7918-5818-9