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Energy-Efficient and Real-Time NOMA Scheduling in IoMT-Based Three-Tier WBANs

Zeinab Askari, Jamshid Abouei, Muhammad Jaseemuddin, Alagan Anpalagan

2021IEEE Internet of Things Journal30 citationsDOI

Abstract

This article addresses a real-time monitoring mechanism of vital signs of patients in a three-tier Internet of Medical Things-based software-defined-wireless body area network. The challenging issues are energy efficiency, interference, delay, emergency conditions, and reliability. We propose a two-tier scheduling algorithm in which Walsh Hadamard codes are employed to avoid the interference and decrease the delay and energy consumption in tier I. To schedule the transmission of different patients in tier II [i.e., the transmissions between hubs and access points (APs)], we propose a fair nonorthogonal multiple access-based scheduling algorithm, which jointly considers the channel state, energy consumption, and delay. Some processing tasks of the proposed algorithm are executed by local edge servers connected to APs and managed by a central SD-controller in tier III. Consequently, the transmission delay and energy consumption considerably decrease and the effective throughput increases. The algorithm takes the precedence of some information over other sensed data into account by employing the emergency index. The simulations results illustrate the advantages of the proposed algorithm in terms of energy consumption, network delay, and effective throughput, and the superior performance over other benchmark schemes.

Topics & Concepts

Computer scienceEnergy consumptionEfficient energy useComputer networkScheduling (production processes)Real-time computingBiologyEngineeringOperations managementEcologyEconomicsElectrical engineeringAdvanced Wireless Communication TechnologiesWireless Body Area NetworksIoT Networks and Protocols
Energy-Efficient and Real-Time NOMA Scheduling in IoMT-Based Three-Tier WBANs | Litcius