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2022 | OriginalPaper | Chapter

Human Activity Recognition System Using Artificial Neural Networks

Authors : Vinícius Ferreira De Almeida, Rodrigo Varejão Andreão

Published in: XXVII Brazilian Congress on Biomedical Engineering

Publisher: Springer International Publishing

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Abstract

Population aging and the increasing costs of health care, especially for the elderly affected by chronic diseases, requires new medical assistance strategies that makes it possible to monitor these people remotely and provide reliable information on their routines. In this context, human activity recognition (HAR) systems are an important element to overcoming the problem. Therefore, this paper proposes a HAR system prototype containing a multilayer perceptron (MLP) as a classifier. The model hyperparameters were selected using a publicly available dataset. Then, data was collected from accelerometers and gyroscopes embedded in wearable devices of 15 subjects while performing six basic activities (walking, sitting, lying down, standing, walking upstairs and walking downstairs). The system reached an average accuracy of 90.74% and weighted F-measure of 90.03% based on leave-one-subject-out cross-validation.

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Goulart FAA (2011) Doenças Crônicas Não Transmissíveis: Estratégias de Controle e Desafios Para os Sistemas de Saúde. PAHO

Lara OD, Labrador MA (2013) A survey on human activity recognition using wearable sensors. IEEE Commun Surv Tutor 15:1192–1209

Gao L, Bourke AK, Nelson J (2014) Evaluation of accelerometer based multi-sensor versus single-sensor activity recognition systems. Med Engi Phys 36:779–785

Shoaib M, Bosch S, Incel O et al (2014) Fusion of smartphone motion sensors for physical activity. Recogn Sens 14:10146–10176

Yurtman A, Barshan B (2017) Activity recognition invariant to sensor orientation with wearable motion sensors. Sensors 17:1838

Janidarmian M, Fekr AR, Radecka K et al (2017) A comprehensive analysis on wearable acceleration sensors in human activity. Recogn Sens 17:529

Lubina P, Rudzki M (2015) Artificial neural networks in accelerometer-based human activity recognition. In: 2015 22nd international conference on mixed design of integrated circuits systems (MIXDES). IEEE

Ordóñez F, Roggen D (2016) Deep Convolutional and LSTM recurrent neural networks for multimodal wearable activity. Recogn Sens 16:115

10.

Murad A, Pyun JY (2017) Deep recurrent neural networks for human activity recognition. Sensors 17:2556

11.

Bersch S, Azzi D, Khusainov R et al (2014) Sensor data acquisition and processing parameters for human activity. Classif Sens 14:4239–4270

12.

Karantonis DM, Narayanan MR, Mathie M et al (2006) Implementation of a real-time human movement classifier using a triaxial accelerometer for ambulatory monitoring. IEEE Trans Inform Technol Biomed 10:156–167

13.

Banos O, Galvez JM, Damas M et al (2014) Window size impact in human activity recognition. Sensors 14:6474–6499

14.

Bulling A, Blanke U, Schiele B (2014) A tutorial on human activity recognition using body-worn inertial sensors ACM Comput Surv 46:1–33

15.

Wang A, Chen G, Yang J et al (2016) A comparative study on human activity recognition using inertial sensors in a smartphone. IEEE Sens J 16:4566–4578

16.

Igual R, Medrano C, Plaza I (2015) A comparison of public datasets for acceleration-based fall detection. Med Eng Phys 37:870–878

17.

Roggen D, Calatroni A, Rossi M et al. Collecting complex activity datasets in highly rich networked sensor environments. In: 2010 Seventh international conference on networked sensing systems (INSS). IEEE

18.

Chavarriaga R, Sagha H, Calatroni A et al (2013) The opportunity challenge: a benchmark database for on-body sensor-based activity recognition. Pattern Recogn Lett 34:2033–2042

19.

Pedregosa F., Varoquaux G., Gramfort A., et al. Scikit-learn: machine learning in python. J Mach Learn Res 12:2825–2830

20.

De Vries S, Garre FG, Engbers LH et al (2011) Evaluation of neural networks to identify types of activity using accelerometers medicine. Sci Sports Exercise 43:101–107

21.

Chernbumroong S, Atkins AS, Yu H (2011) Activity classification using a single wrist-worn accelerometer. In: 2011 5th international conference on software, knowledge information, industrial management and applications (SKIMA). IEEE

Title: Human Activity Recognition System Using Artificial Neural Networks
Authors: Vinícius Ferreira De Almeida
Rodrigo Varejão Andreão
Publisher: Springer International Publishing
Book: XXVII Brazilian Congress on Biomedical Engineering
Print ISBN: 978-3-030-70600-5

Electronic ISBN: 978-3-030-70601-2

Copyright Year: 2022
DOI: https://doi.org/10.1007/978-3-030-70601-2_192