Location History:
- Hickory, TN (US) (2018)
- Old Hickory, TN (US) (2020 - 2022)
Company Filing History:
Years Active: 2018-2022
Title: Amanda Huff Shultz: Innovator in Biomechanical Engineering
Introduction
Amanda Huff Shultz is a prominent inventor based in Hickory, TN (US). She has made significant contributions to the field of biomechanical engineering, particularly in the development of powered lower limb devices. With a total of 3 patents to her name, Amanda is recognized for her innovative approaches to enhancing mobility for individuals with lower limb disabilities.
Latest Patents
One of Amanda's latest patents is titled "System and method for providing biomechanically suitable running gait in powered lower limb devices." This invention focuses on systems and methods for a running controller that includes at least a powered knee joint. The method involves collecting real-time sensor information for the lower limb device and configuring it to a first state in a finite state model for an activity mode, including running. The process includes transitioning the lower limb device from a current state to a subsequent state based on sensor information, ensuring that the device adapts to the user's needs during different activity modes.
Career Highlights
Amanda is currently affiliated with Vanderbilt University, where she continues her research and development in biomechanical engineering. Her work aims to improve the functionality and usability of powered lower limb devices, making a significant impact on the lives of those who rely on such technologies.
Collaborations
Amanda has collaborated with notable colleagues in her field, including Michael Goldfarb and Brian Lawson. These partnerships have furthered her research and contributed to the advancement of innovative solutions in biomechanical engineering.
Conclusion
Amanda Huff Shultz is a trailblazer in the realm of biomechanical engineering, with her patents reflecting her commitment to improving mobility for individuals with lower limb challenges. Her work at Vanderbilt University and collaborations with esteemed colleagues underscore her dedication to innovation in this vital field.