Location History:
- Tampa, FL (US) (2019 - 2020)
- White Rock, NM (US) (2020)
Company Filing History:
Years Active: 2019-2020
Title: Innovations by Tyagi Ramakrishnan in Prosthetic Technology
Introduction
Tyagi Ramakrishnan is an accomplished inventor based in Tampa, FL (US), known for his significant contributions to the field of prosthetic technology. With a total of 6 patents to his name, he has developed innovative solutions aimed at improving the quality of life for individuals with mobility challenges.
Latest Patents
One of his latest inventions is the "Biomimetic transfemoral knee with gear mesh locking mechanism." This prosthetic knee features a passive knee locking mechanism that mimics the four-bar mechanics of a natural knee. The design allows for a flexible four-bar mechanism that guides knee motion, aiding in the transition from full flexion to extension. The connection between the femoral gear and tibial gear ensures that the knee remains locked during the stance phase, while allowing for flexion at toe-off.
Another notable patent is the "Knee orthosis with variable stiffness and damping." This lightweight, adjustable knee orthosis is designed to restore gait symmetry. It incorporates a rotary damper for variable damping and a spring member for adjustable stiffness at the knee joint. This device is particularly beneficial for rehabilitation in stroke patients, as it encourages larger knee flexion as an aftereffect.
Career Highlights
Tyagi Ramakrishnan is affiliated with the University of South Florida, where he continues to push the boundaries of prosthetic technology. His work is characterized by a commitment to enhancing mobility and independence for individuals with disabilities.
Collaborations
He collaborates with notable colleagues such as Kyle Brandon Reed and Millicent Kay Schlafly, contributing to a dynamic research environment focused on innovative solutions in prosthetics.
Conclusion
Tyagi Ramakrishnan's innovative patents in prosthetic technology reflect his dedication to improving the lives of individuals with mobility impairments. His work at the University of South Florida and collaborations with fellow researchers underscore the importance of teamwork in driving advancements in this critical field.