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  1. AU="Alatawi, Mohammed Naif"
  2. AU="Jacquemet, Elise"
  3. AU="Cappelleri, Joseph C"
  4. AU="Frank, Samuel A"
  5. AU="Srensen, Henrik Toft"
  6. AU="Matteo Tosato"

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  1. Article ; Online: Stress Monitoring Using Machine Learning, IoT and Wearable Sensors.

    Al-Atawi, Abdullah A / Alyahyan, Saleh / Alatawi, Mohammed Naif / Sadad, Tariq / Manzoor, Tareq / Farooq-I-Azam, Muhammad / Khan, Zeashan Hameed

    Sensors (Basel, Switzerland)

    2023  Volume 23, Issue 21

    Abstract: The Internet of Things (IoT) has emerged as a fundamental framework for interconnected device communication, representing a relatively new paradigm and the evolution of the Internet into its next phase. Its significance is pronounced in diverse fields, ... ...

    Abstract The Internet of Things (IoT) has emerged as a fundamental framework for interconnected device communication, representing a relatively new paradigm and the evolution of the Internet into its next phase. Its significance is pronounced in diverse fields, especially healthcare, where it finds applications in scenarios such as medical service tracking. By analyzing patterns in observed parameters, the anticipation of disease types becomes feasible. Stress monitoring with wearable sensors and the Internet of Things (IoT) is a potential application that can enhance wellness and preventative health management. Healthcare professionals have harnessed robust systems incorporating battery-based wearable technology and wireless communication channels to enable cost-effective healthcare monitoring for various medical conditions. Network-connected sensors, whether within living spaces or worn on the body, accumulate data crucial for evaluating patients' health. The integration of machine learning and cutting-edge technology has sparked research interest in addressing stress levels. Psychological stress significantly impacts a person's physiological parameters. Stress can have negative impacts over time, prompting sometimes costly therapies. Acute stress levels can even constitute a life-threatening risk, especially in people who have previously been diagnosed with borderline personality disorder or schizophrenia. To offer a proactive solution within the realm of smart healthcare, this article introduces a novel machine learning-based system termed "Stress-Track". The device is intended to track a person's stress levels by examining their body temperature, sweat, and motion rate during physical activity. The proposed model achieves an impressive accuracy rate of 99.5%, showcasing its potential impact on stress management and healthcare enhancement.
    MeSH term(s) Humans ; Internet of Things ; Wearable Electronic Devices ; Delivery of Health Care ; Machine Learning ; Motion
    Language English
    Publishing date 2023-10-31
    Publishing country Switzerland
    Document type Journal Article
    ZDB-ID 2052857-7
    ISSN 1424-8220 ; 1424-8220
    ISSN (online) 1424-8220
    ISSN 1424-8220
    DOI 10.3390/s23218875
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  2. Article ; Online: Software architecture for pervasive critical health monitoring system using fog computing.

    Ilyas, Abeera / Alatawi, Mohammed Naif / Hamid, Yasir / Mahfooz, Saeed / Zada, Islam / Gohar, Neelam / Shah, Mohd Asif

    Journal of cloud computing (Heidelberg, Germany)

    2022  Volume 11, Issue 1, Page(s) 84

    Abstract: Because of the existence of Covid-19 and its variants, health monitoring systems have become mandatory, particularly for critical patients such as neonates. However, the massive volume of real-time data generated by monitoring devices necessitates the ... ...

    Abstract Because of the existence of Covid-19 and its variants, health monitoring systems have become mandatory, particularly for critical patients such as neonates. However, the massive volume of real-time data generated by monitoring devices necessitates the use of efficient methods and approaches to respond promptly. A fog-based architecture for IoT healthcare systems tends to provide better services, but it also produces some issues that must be addressed. We present a bidirectional approach to improving real-time data transmission for health monitors by minimizing network latency and usage in this paper. To that end, a simplified approach for large-scale IoT health monitoring systems is devised, which provides a solution for IoT device selection of optimal fog nodes to reduce both communication and processing delays. Additionally, an improved dynamic approach for load balancing and task assignment is also suggested. Embedding the best practices from the IoT, Fog, and Cloud planes, our aim in this work is to offer software architecture for IoT-based healthcare systems to fulfill non-functional needs. 4 + 1 views are used to illustrate the proposed architecture.
    Language English
    Publishing date 2022-11-30
    Publishing country Germany
    Document type Journal Article
    ZDB-ID 2682472-3
    ISSN 2192-113X ; 2192-113X
    ISSN (online) 2192-113X
    ISSN 2192-113X
    DOI 10.1186/s13677-022-00371-w
    Database MEDical Literature Analysis and Retrieval System OnLINE

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    Order via subito

    This service is chargeable due to the Delivery terms set by subito. Orders including an article and supplementary material will be classified as separate orders. In these cases, fees will be demanded for each order.

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