Decision-tree-based human activity classification algorithm using single-channel foot-mounted gyroscope

M.W. McCarthy; D.A. James; J.B. Lee; D.D. Rowlands

Decision-tree-based human activity classification algorithm using single-channel foot-mounted gyroscope

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Author(s): M.W. McCarthy ¹ ; D.A. James ¹ ; J.B. Lee ² ; D.D. Rowlands ¹
- Affiliations: 1: Sports and Biomedical Engineering Laboratory, Griffith University, Brisbane, Australia;
  2: School of Physiological and Clinical Sciences, Charles Darwin University, Darwin, Australia
Source: Volume 51, Issue 9, 30 April 2015, p. 675 – 676
DOI: 10.1049/el.2015.0436 , Print ISSN 0013-5194, Online ISSN 1350-911X

Received 03/02/2015, Published 17/04/2015

Wearable devices that measure and recognise human activity in real time require classification algorithms that are both fast and accurate when implemented on limited hardware. A decision-tree-based method for differentiating between individual walking, running, stair climbing and stair descent strides using a single channel of a foot-mounted gyroscope suitable for implementation on embedded hardware is presented. Temporal features unique to each activity were extracted using an initial subject group (n = 13) and a decision-tree-based classification algorithm was developed using the timing information of these features. A second subject group (n = 10) completed the same activities to provide data for verification of the system. Results indicate that the classifier was able to correctly match each stride to its activity with >90% accuracy. Running and walking strides in particular matched with >99% accuracy. The outcomes demonstrate that a lightweight yet robust classification system is feasible for implementation on embedded hardware for real-time daily monitoring.

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Decision-tree-based human activity classification algorithm using single-channel foot-mounted gyroscope

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