A Biologically Inspired Movement Recognition System with Spiking Neural Networks for Ambient Assisted Living Applications
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Published:2024-05-15
Issue:5
Volume:9
Page:296
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ISSN:2313-7673
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Container-title:Biomimetics
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language:en
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Short-container-title:Biomimetics
Author:
Passias Athanasios1ORCID, Tsakalos Karolos-Alexandros1ORCID, Kansizoglou Ioannis2ORCID, Kanavaki Archontissa Maria3ORCID, Gkrekidis Athanasios3ORCID, Menychtas Dimitrios3ORCID, Aggelousis Nikolaos3ORCID, Michalopoulou Maria3, Gasteratos Antonios2ORCID, Sirakoulis Georgios Ch.1ORCID
Affiliation:
1. Department of Electrical and Computer Engineering, Democritus University of Thrace, 67100 Xanthi, Greece 2. Department of Production and Management Engineering, Democritus University of Thrace, 67100 Xanthi, Greece 3. School of Physical Education and Sport Science, Democritus University of Thrace, 69100 Komotini, Greece
Abstract
This study presents a novel solution for ambient assisted living (AAL) applications that utilizes spiking neural networks (SNNs) and reconfigurable neuromorphic processors. As demographic shifts result in an increased need for eldercare, due to a large elderly population that favors independence, there is a pressing need for efficient solutions. Traditional deep neural networks (DNNs) are typically energy-intensive and computationally demanding. In contrast, this study turns to SNNs, which are more energy-efficient and mimic biological neural processes, offering a viable alternative to DNNs. We propose asynchronous cellular automaton-based neurons (ACANs), which stand out for their hardware-efficient design and ability to reproduce complex neural behaviors. By utilizing the remote supervised method (ReSuMe), this study improves spike train learning efficiency in SNNs. We apply this to movement recognition in an elderly population, using motion capture data. Our results highlight a high classification accuracy of 83.4%, demonstrating the approach’s efficacy in precise movement activity classification. This method’s significant advantage lies in its potential for real-time, energy-efficient processing in AAL environments. Our findings not only demonstrate SNNs’ superiority over conventional DNNs in computational efficiency but also pave the way for practical neuromorphic computing applications in eldercare.
Funder
project “Study, Design, Development and Implementation of a Holistic System for Upgrading the Quality of Life and Activity of the Elderly” Operational Programme “Competitiveness, Entrepreneurship and Innovation” Greece and the European Union
Reference39 articles.
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