Article: FETES: a fast, emergency timeslot allocation, and three-tier energy saving-based task execution strategy for wireless body area network Journal: International Journal of Ad Hoc and Ubiquitous Computing (IJAHUC) 2023 Vol.42 No.3 pp.189 - 205 Abstract: Wireless body area network (WBAN) is becoming increasingly popular among researchers and patients due to its real-time healthcare services. Mobile-edge computing (MEC) can play a major role to satisfy the latency requirements of WBAN's healthcare applications. The development of a suitable computation offloading and energy savings scheme is critical for MEC-enabled WBANs due to different priorities of WBAN tasks, QoS, resource availability, and contention delay. To improve the end-to-end latency, this paper proposes a fast data transfer, emergency timeslot, processing node allocation, and energy-saving-based task execution strategy (FETES) considering WBAN user's task priority, multiple tasks, resources, availability, different delays, network connectivity, and processing devices for computation offloading. The FETES scheme supports energy-saving for sensors, hubs, and network access devices. To evaluate the delay, throughput, and energy dissipation performance of the proposed FETES scheme, a comprehensive analytical model is presented. The evaluation results show the efficacy of the proposed FETES scheme. Inderscience Publishers - linking academia, business and industry through research

Title: FETES: a fast, emergency timeslot allocation, and three-tier energy saving-based task execution strategy for wireless body area network

Authors: Mahfuzulhoq Chowdhury

Addresses: Computer Science and Engineering Department, Chittagong University of Engineering and Technology, Chittagong-4349, Bangladesh

Abstract: Wireless body area network (WBAN) is becoming increasingly popular among researchers and patients due to its real-time healthcare services. Mobile-edge computing (MEC) can play a major role to satisfy the latency requirements of WBAN's healthcare applications. The development of a suitable computation offloading and energy savings scheme is critical for MEC-enabled WBANs due to different priorities of WBAN tasks, QoS, resource availability, and contention delay. To improve the end-to-end latency, this paper proposes a fast data transfer, emergency timeslot, processing node allocation, and energy-saving-based task execution strategy (FETES) considering WBAN user's task priority, multiple tasks, resources, availability, different delays, network connectivity, and processing devices for computation offloading. The FETES scheme supports energy-saving for sensors, hubs, and network access devices. To evaluate the delay, throughput, and energy dissipation performance of the proposed FETES scheme, a comprehensive analytical model is presented. The evaluation results show the efficacy of the proposed FETES scheme.

Keywords: wireless body area network; WBAN; cloud computing services; sensors; emergency and non-emergency user's timeslot; fast data transfer; energy saving; utility.

DOI: 10.1504/IJAHUC.2023.129394

International Journal of Ad Hoc and Ubiquitous Computing, 2023 Vol.42 No.3, pp.189 - 205

Accepted: 16 May 2022
Published online: 07 Mar 2023 *

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Title: FETES: a fast, emergency timeslot allocation, and three-tier energy saving-based task execution strategy for wireless body area network

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