Self-Tuning Threshold Method for Real-Time Gait Phase Detection Based on Ground Contact Forces Using FSRs

This paper presents a novel methodology for detecting the gait phase of human walking on level ground. The previous threshold method (TM) sets a threshold to divide the ground contact forces (GCFs) into on-ground and off-ground states. However, the previous methods for gait phase detection demonstra...

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Veröffentlicht in:Sensors (Basel, Switzerland) Jg. 18; H. 2; S. 481
Hauptverfasser: Tang, Jing, Zheng, Jianbin, Wang, Yang, Yu, Lie, Zhan, Enqi, Song, Qiuzhi
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Switzerland MDPI AG 06.02.2018
MDPI
Schlagworte:
adaptability
force sensitive resistors
Methods
self-tuning triple threshold algorithm
Walking
self-tuning triple threshold algorithm
force sensitive resistors
adaptability
ISSN:1424-8220, 1424-8220
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Zusammenfassung:This paper presents a novel methodology for detecting the gait phase of human walking on level ground. The previous threshold method (TM) sets a threshold to divide the ground contact forces (GCFs) into on-ground and off-ground states. However, the previous methods for gait phase detection demonstrate no adaptability to different people and different walking speeds. Therefore, this paper presents a self-tuning triple threshold algorithm (STTTA) that calculates adjustable thresholds to adapt to human walking. Two force sensitive resistors (FSRs) were placed on the ball and heel to measure GCFs. Three thresholds (i.e., high-threshold, middle-threshold andlow-threshold) were used to search out the maximum and minimum GCFs for the self-adjustments of thresholds. The high-threshold was the main threshold used to divide the GCFs into on-ground and off-ground statuses. Then, the gait phases were obtained through the gait phase detection algorithm (GPDA), which provides the rules that determine calculations for STTTA. Finally, the STTTA reliability is determined by comparing the results between STTTA and Mariani method referenced as the timing analysis module (TAM) and Lopez–Meyer methods. Experimental results show that the proposed method can be used to detect gait phases in real time and obtain high reliability when compared with the previous methods in the literature. In addition, the proposed method exhibits strong adaptability to different wearers walking at different walking speeds.
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ISSN:1424-8220
1424-8220
DOI:10.3390/s18020481