IEEE Access (Jan 2019)

InnoHAR: A Deep Neural Network for Complex Human Activity Recognition

  • Cheng Xu,
  • Duo Chai,
  • Jie He,
  • Xiaotong Zhang,
  • Shihong Duan

DOI
https://doi.org/10.1109/ACCESS.2018.2890675
Journal volume & issue
Vol. 7
pp. 9893 – 9902

Abstract

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Human activity recognition (HAR) based on sensor networks is an important research direction in the fields of pervasive computing and body area network. Existing researches often use statistical machine learning methods to manually extract and construct features of different motions. However, in the face of extremely fast-growing waveform data with no obvious laws, the traditional feature engineering methods are becoming more and more incapable. With the development of deep learning technology, we do not need to manually extract features and can improve the performance in complex human activity recognition problems. By migrating deep neural network experience in image recognition, we propose a deep learning model (InnoHAR) based on the combination of inception neural network and recurrent neural network. The model inputs the waveform data of multi-channel sensors end-to-end. Multi-dimensional features are extracted by inception-like modules by using various kernel-based convolution layers. Combined with GRU, modeling for time series features is realized, making full use of data characteristics to complete classification tasks. Through experimental verification on three most widely used public HAR datasets, our proposed method shows consistent superior performance and has good generalization performance, when compared with the state-of-the-art.

Keywords