Coarse-Fine Convolutional Deep-Learning Strategy for Human Activity Recognition.

Journal: Sensors (Basel, Switzerland)
PMID: 30935117

Abstract

In the last decade, deep learning techniques have further improved human activity recognition (HAR) performance on several benchmark datasets. This paper presents a novel framework to classify and analyze human activities. A new convolutional neural network (CNN) strategy is applied to a single user movement recognition using a smartphone. Three parallel CNNs are used for local feature extraction, and latter they are fused in the classification task stage. The whole CNN scheme is based on a feature fusion of a fine-CNN, a medium-CNN, and a coarse-CNN. A tri-axial accelerometer and a tri-axial gyroscope sensor embedded in a smartphone are used to record the acceleration and angle signals. Six human activities successfully classified are walking, walking-upstairs, walking-downstairs, sitting, standing and laying. Performance evaluation is presented for the proposed CNN.

Authors

  • Carlos Avilés-Cruz
    Autonomous Metropolitan University. Electronics Department, Av. San Pablo 180, Col. Reynosa, C.P. 02200 Mexico City, Mexico. caviles@azc.uam.mx.
  • Andrés Ferreyra-Ramírez
    Autonomous Metropolitan University. Electronics Department, Av. San Pablo 180, Col. Reynosa, C.P. 02200 Mexico City, Mexico. fra@azc.uam.mx.
  • Arturo Zúñiga-López
    Autonomous Metropolitan University. Electronics Department, Av. San Pablo 180, Col. Reynosa, C.P. 02200 Mexico City, Mexico. azl@azc.uam.mx.
  • Juan Villegas-Cortéz
    Autonomous Metropolitan University. Electronics Department, Av. San Pablo 180, Col. Reynosa, C.P. 02200 Mexico City, Mexico. juanvc@azc.uam.mx.

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