Real-time reactive trip avoidance for powered transfemoral prostheses - Robotics Institute Carnegie Mellon University

Real-time reactive trip avoidance for powered transfemoral prostheses

N. Thatte, N. Srinivasan, and H. Geyer
Conference Paper, Proceedings of Robotics Systems and Sciences (RSS '19), June, 2019

Abstract

This paper presents a real-time reactive controller for a powered prosthesis that addresses the problem of trip avoidance. The control estimates the pose of the leg during swing with an extended Kalman filter, predicts future hip angles and hip heights using sparse Gaussian Processes, and reactively plans updated ankle and knee trajectories with a fast quadratic program solver to avoid trips. In preliminary experiments with an able-bodied user who purposefully lowered the hip to elicit trips on each swing, the proposed control reduced the rate of tripping by 68% when compared to a swing control that follows standard minimumjerk trajectories. In addition, the proposed control also reduced the severity of toe-scu ng. To the best of our knowledge, this controller is the first to incorporate visual feedback in the realtime planning and control of a lower limb prosthesis during gait. The results demonstrate the potential of reactive and environmentaware controls to improve amputee gait robustness and encourage future development of leg prosthesis controls that can react in real-time to the environment and user state.

BibTeX

@conference{Thatte-2019-120186,
author = {N. Thatte and N. Srinivasan and H. Geyer},
title = {Real-time reactive trip avoidance for powered transfemoral prostheses},
booktitle = {Proceedings of Robotics Systems and Sciences (RSS '19)},
year = {2019},
month = {June},
}