Spring Ankle with Regenerative Kinetics to Build a New Generation of Transtibial Prostheses
Abstract
The goal is to design the Spring Ankle with Regenerative Kinetics (SPARKy) which seeks to develop a new generation of powered prosthetic devices based on the Robotic Tendon actuator. This actuator is a lightweight motor and transmission in series with a helical spring that significantly minimizes the peak power requirement of an electric motor and total system energy. The Robotic Tendon has kinetic advantages and stores and releases energy to provide SPARKy users with 100% of required push-off power and ankle range of motion comparable to able-bodied ankle motion while maintaining a form factor that is portable to the wearer. In the second year, we developed and tested a transtibial prosthesis that supports continuous unstructured walking for up to 2.8 hours. A pilot study with 2 subjects tested the device. An independent gait laboratory will compare gait symmetry and metabolic consumption of SPARKy versus the subject's conventional prostheses. All components are worn and are lightweight and portable.
Document Details
- Document Type
- Technical Report
- Publication Date
- Jul 01, 2009
- Accession Number
- ADA618430
Entities
People
- Thomas G. Sugar
Organizations
- Arizona State University