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Wireless Networks
Published in: Wireless Networks 4/2022

01-11-2021 | Original Paper

A wireless sensor network for remote detection of arrhythmias using convolutional neural network

Authors: M. Karthiga, V. Santhi

Published in: Wireless Networks | Issue 4/2022

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Abstract

Wireless Sensor Network (WSN) is getting a lot of interest from governments, citizens, industries, and universities for applications in various domains like smart buildings, environmental surveillance, and healthcare. Designers of the WSNs must take care of certain prevalent issues associated with security, detection of faults, scheduling of events, energy-aware routing, clustering of nodes, and aggregation of data. In this work, a WSN based healthcare application for detecting Arrhythmia remotely is presented. The Electrocardiogram (ECG) is employed as the principal diagnostic tool for arrhythmia. The ECG signals are composed of information related to the distinct arrhythmia types. Nevertheless, these signals’ non-linearity, as well as complexity, makes their manual analysis quite challenging. The majority of the researchers have a lot of interest in energy efficiency as almost all advancements in diverse technologies will eventually result in a sustainable global energy system. This work has employed the Artificial Bee Colony as well as the Grey Wolf Optimiser for optimizing the clustering to boost the routing and also the network longevity. This work presents a Convolutional Neural Network technique for automatically detecting the distinct ECG segments.
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Literature
1.
Dey, N., Ashour, A. S., Shi, F., Fong, S. J., & Sherratt, R. S. (2017). Developing residential wireless sensor networks for ECG healthcare monitoring. IEEE Transactions on Consumer Electronics, 63(4), 442–449.CrossRef
2.
Mann, P. S., & Singh, S. (2019). Improved metaheuristic-based energy-efficient clustering protocol with optimal base station location in wireless sensor networks. Soft Computing, 23(3), 1021–1037.CrossRef
3.
Kumar, D. P., Amgoth, T., & Annavarapu, C. S. R. (2019). Machine learning algorithms for wireless sensor networks: A survey. Information Fusion, 49, 1–25.CrossRef
4.
Donta, P. K., Rao, B. S. P., Amgoth, T., Annavarapu, C. S. R., & Swain, S. (2019). Data collection and path determination strategies for mobile sink in 3D WSNs. IEEE Sensors Journal, 20(4), 2224–2233.CrossRef
5.
Kumar, P., Amgoth, T., & Annavarapu, C. S. R. (2018). ACO-based mobile sink path determination for wireless sensor networks under non-uniform data constraints. Applied Soft Computing, 69, 528–540.CrossRef
6.
7.
Kumar, A., Kumar, D., & Jarial, S. K. (2017). A review on artificial bee colony algorithms and their applications to data clustering. Cybernetics and Information Technologies, 17(3), 3–28.MathSciNetCrossRef
8.
Ahmad, T., Haque, M., & Khan, A. M. (2019). An energy-efficient cluster head selection using artificial bees colony optimization for wireless sensor networks. In S. Shandilya, S. Shandilya, & A. Nagar (Eds.), Advances in Nature-Inspired Computing and Applications. EAI/Springer Innovations in Communication and Computing. Cham: Springer. https://​doi.​org/​10.​1007/​978-3-319-96451-5_​8.CrossRef
9.
Kaushik, A., Indu, S., & Gupta, D. (2019). A grey wolf optimization approach for improving the performance of wireless sensor networks. Wireless Personal Communications, 106(3), 1429–1449.CrossRef
10.
Agrawal, D., Wasim Qureshi, M. H., Pincha, P., Srivastava, P., Agarwal, S., Tiwari, V., & Pandey, S. (2020). GWO-C: Grey wolf optimizer-based clustering scheme for WSNs. International Journal of Communication Systems, 33(8), e4344.CrossRef
11.
Yang, J., & Ma, J. (2019). Feedforward neural network training using sparse representation. Expert Systems with Applications, 116, 255–264.CrossRef
12.
Karthikeyan, S., & Christopher, T. (2014). A hybrid clustering approach using artificial bee colony (ABC) and particle swarm optimization. International Journal of Computer Applications, 100(15), 1–6.CrossRef
13.
Akay, B. B., & Karaboga, D. (2017). Artificial bee colony algorithm variants on constrained optimization. An International Journal of Optimization and Control: Theories and Applications (IJOCTA), 7(1), 98–111.MathSciNetMATH
14.
Sharawi, M., & Emary, E. (2017). Impact of grey wolf optimization on WSN cluster formation and lifetime expansion. In 2017 9th International Conference on Advanced Computational Intelligence (ICACI) (pp. 157–162). IEEE.
15.
Saremi, S., Mirjalili, S. Z., & Mirjalili, S. M. (2015). Evolutionary population dynamics and grey wolf optimizer. Neural Computing and Applications, 26(5), 1257–1263.CrossRef
16.
Mirjalili, S., Mirjalili, S. M., & Lewis, A. (2014). Grey wolf optimizer. Advances in engineering software, 69, 46–61.CrossRef
17.
Agarwal, A., Dubey, S., Khan, M. A., Gangopadhyay, R., & Debnath, S. (2016). Learning based primary user activity prediction in cognitive radio networks for efficient dynamic spectrum access. In 2016 international conference on Signal Processing and Communications (SPCOM) (pp. 1–5). IEEE.
18.
Jondhale, S. R., Sharma, M., Maheswar, R., Shubair, R., & Shelke, A. (2020). Comparison of neural network training functions for RSSI based indoor localization problem in WSN. In Handbook of Wireless Sensor Networks: Issues and Challenges in Current Scenario's (AISC) (pp. 112–133). Springer Nature.
19.
Ming, Y., Cao, S., Zhang, R., Li, Z., Chen, Y., Song, Y., & Qu, H. (2017). Understanding hidden memories of recurrent neural networks. In 2017 IEEE Conference on Visual Analytics Science and Technology (VAST) (pp. 13–24). IEEE.
20.
Jondhale, S. R., & Deshpande, R. S. (2019). Self recurrent neural network based target tracking in wireless sensor network using state observer. International Journal of Sensors Wireless Communications and Control, 9, 1–14.CrossRef
21.
Amin, J., Sharif, M., Anjum, M. A., Raza, M., & Bukhari, S. A. C. (2020). A convolutional neural network with batch normalization for glioma and stroke lesion detection using MRI. Cognitive Systems Research, 59, 304–311.CrossRef
Metadata
Title
A wireless sensor network for remote detection of arrhythmias using convolutional neural network
Authors
M. Karthiga
V. Santhi
Publication date
01-11-2021
Publisher
Springer US
Published in
Wireless Networks / Issue 4/2022
Print ISSN: 1022-0038
Electronic ISSN: 1572-8196
DOI
https://doi.org/10.1007/s11276-021-02825-6

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