Wearable Sensors with Internet of Things (IoT) and Vocabulary-Based Acoustic Signal Processing for Monitoring Children’s Health

Author:

Nagwanshi Kapil Kumar1ORCID,Noonia Ajit2,Tiwari Shivam3,Doohan Nitika Vats4,Kumawat Vijeta5,Ahanger Tariq Ahamed6,Amoatey Enoch Tetteh7ORCID

Affiliation:

1. Department of Computer Science and Engineering, ASET, Amity University Rajasthan, Jaipur, India

2. School of Computing & Information Technology, Manipal University Jaipur, Jaipur, Rajasthan 303007, India

3. Department of Computer Science and Engineering, G L Bajaj Institute of Technology and Management, Greater Noida, Uttar Pradesh, India

4. Department of Computer Science and Engineering, Medi-Caps University, Indore, Madhya Pradesh, India

5. Department of Computer Science and Engineering, Jaipur Engineering College and Research Centre, Jaipur, Rajasthan, India

6. College of Computer Engineering and Sciences, Prince Sattam Bin Abdulaziz University, AI-Kharj, Saudi Arabia

7. School of Engineering, University for Development Studies, Tamale, Ghana

Abstract

The brain is the most complex organ in the human body, and it is also the most complex organ in the whole biological system, making it the most complex organ on the planet. According to the findings of current studies, modern study that properly characterises the EEG data signal provides a clear classification accuracy of human activities which is distinct from previous research. Various brain wave patterns related to common activities such as sleeping, reading, and watching a movie may be found in the Electroencephalography (EEG) data that has been collected. As a consequence of these activities, we accumulate numerous sorts of emotion signals in our brains, including the Delta, Theta, and Alpha bands. These bands will provide different types of emotion signals in our brain as a result of these activities. As a consequence of the nonstationary nature of EEG recordings, time-frequency-domain techniques, on the other hand, are more likely to provide good findings. The ability to identify different neural rhythm scales using time-frequency representation has also been shown to be a legitimate EEG marker; this ability has also been demonstrated to be a powerful tool for investigating small-scale neural brain oscillations. This paper presents the first time that a frequency analysis of EEG dynamics has been undertaken. An augmenting decomposition consisting of the “Versatile Inspiring Wavelet Transform” and the “Adaptive Wavelet Transform” is used in conjunction with the EEG rhythms that were gathered to provide adequate temporal and spectral resolutions. Children’s wearable sensors are being used to collect data from a number of sources, including the Internet. The signal is conveyed over the Internet of Things (IoT). Specifically, the suggested approach is assessed on two EEG datasets, one of which was obtained in a noisy (i.e., nonshielded) environment and the other was recorded in a shielded environment. The results illustrate the resilience of the proposed training strategy. Therefore, our method contributes to the identification of specific brain activity in children who are taking part in the research as a result of their participation. On the basis of several parameters such as filtering response, accuracy, precision, recall, and F-measure, the MATLAB simulation software was used to evaluate the performance of the proposed system.

Funder

Prince Sattam bin Abdulaziz University

Publisher

Hindawi Limited

Subject

General Mathematics,General Medicine,General Neuroscience,General Computer Science

Reference40 articles.

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