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Classification accuracies of physical activities using smartphone motion sensors

Wu, Wanmin ; Dasgupta, Sanjoy ; Ramirez, Ernesto E ; Peterson, Carlyn ; Norman, Gregory J

Journal of medical Internet research, 2012-10, Vol.14 (5), p.e130-e130 [Periódico revisado por pares]

Canada: Gunther Eysenbach MD MPH, Associate Professor

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  • Título:
    Classification accuracies of physical activities using smartphone motion sensors
  • Autor: Wu, Wanmin ; Dasgupta, Sanjoy ; Ramirez, Ernesto E ; Peterson, Carlyn ; Norman, Gregory J
  • Assuntos: Acceleration ; Accelerometers ; Accuracy ; Activities ; Adult ; Application programming interface ; Cell Phone ; Classification ; Data collection ; Digital audio players ; Female ; Fitness equipment ; Fourier Analysis ; Health behavior ; Health status ; Humans ; Laboratories ; Magnitude ; Male ; Measurement ; Metabolism ; Microcomputers ; Middle Aged ; Movement ; Original Paper ; Physical activity ; Running ; Sedentary ; Sensors ; Smartphones ; Validity ; Walking
  • É parte de: Journal of medical Internet research, 2012-10, Vol.14 (5), p.e130-e130
  • Notas: ObjectType-Article-1
    SourceType-Scholarly Journals-1
    ObjectType-Feature-2
    content type line 23
  • Descrição: Over the past few years, the world has witnessed an unprecedented growth in smartphone use. With sensors such as accelerometers and gyroscopes on board, smartphones have the potential to enhance our understanding of health behavior, in particular physical activity or the lack thereof. However, reliable and valid activity measurement using only a smartphone in situ has not been realized. To examine the validity of the iPod Touch (Apple, Inc.) and particularly to understand the value of using gyroscopes for classifying types of physical activity, with the goal of creating a measurement and feedback system that easily integrates into individuals' daily living. We collected accelerometer and gyroscope data for 16 participants on 13 activities with an iPod Touch, a device that has essentially the same sensors and computing platform as an iPhone. The 13 activities were sitting, walking, jogging, and going upstairs and downstairs at different paces. We extracted time and frequency features, including mean and variance of acceleration and gyroscope on each axis, vector magnitude of acceleration, and fast Fourier transform magnitude for each axis of acceleration. Different classifiers were compared using the Waikato Environment for Knowledge Analysis (WEKA) toolkit, including C4.5 (J48) decision tree, multilayer perception, naive Bayes, logistic, k-nearest neighbor (kNN), and meta-algorithms such as boosting and bagging. The 10-fold cross-validation protocol was used. Overall, the kNN classifier achieved the best accuracies: 52.3%-79.4% for up and down stair walking, 91.7% for jogging, 90.1%-94.1% for walking on a level ground, and 100% for sitting. A 2-second sliding window size with a 1-second overlap worked the best. Adding gyroscope measurements proved to be more beneficial than relying solely on accelerometer readings for all activities (with improvement ranging from 3.1% to 13.4%). Common categories of physical activity and sedentary behavior (walking, jogging, and sitting) can be recognized with high accuracies using both the accelerometer and gyroscope onboard the iPod touch or iPhone. This suggests the potential of developing just-in-time classification and feedback tools on smartphones.
  • Editor: Canada: Gunther Eysenbach MD MPH, Associate Professor
  • Idioma: Inglês
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  • Realização: ABCD-USP USP   Logos de Redes Sociais: Freepik

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