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Journal Article

Citation

Martinez-Hernandez U, Awad MI, Mahmood I, Dehghani-Sanij AA. IEEE Int. Conf. Rehabil. Robot. 2017; 2017: 13-18.

Copyright

(Copyright © 2017, Institute of Electrical and Electronics Engineers)

DOI

10.1109/ICORR.2017.8009214

PMID

28813786

Abstract

In this paper, a robust probabilistic formulation for prediction of gait events from human walking activities using wearable sensors is presented. This approach combines the output from a Bayesian perception system with observations from actions and decisions made over time. The perception system makes decisions about the current gait events, while observations from decisions and actions allow to predict the most probable gait event during walking activities. Furthermore, our proposed method is capable to evaluate the accuracy of its predictions, which permits to obtain a better performance and trade-off between accuracy and speed. In our work, we use data from wearable inertial measurement sensors attached to the thigh, shank and foot of human participants. The proposed perception system is validated with multiple experiments for recognition and prediction of gait events using angular velocity data from three walking activities; level-ground, ramp ascent and ramp descent. The results show that our method is fast, accurate and capable to evaluate and adapt its own performance. Overall, our Bayesian perception system demonstrates to be a suitable high-level method for the development of reliable and intelligent assistive and rehabilitation robots.


Language: en

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