An Energy-Efficient Internet of Things Relaying System for Delay-Constrained Applications
The emerging Internet-of-things (IoT) systems contain a large number of small wireless devices with limited energy, communication, and computational capabilities. In such systems, a helping station located between the IoT devices and backhaul servers can be deployed to broadcast the IoT devices to the backhaul networks. This paper investigates a hybrid energy-efficient framework using multiple energy harvested relays with data buffering capabilities. The relays are powered by a hybrid energy supply consisting of a traditional electric grid and renewable energy grid. We propose an energy efficient novel approach aiming to support the wireless uplink transmission from IoT devices to backhaul servers with an acceptable delay threshold or transmission deadline. A mathematical mixed-integer linear programming (MILP) optimization problem is formulated to optimize the relays' placement and energy consumption considering the association between relays and devices, instantaneous relays' battery level, and transmit power budget. Due to the non-convex nature of the formulated optimization problem, we propose two heuristic low-complexity solutions to solve this problem. Finally, we compare the performance of the proposed algorithms with exhaustive search solutions as a benchmark.
A. M. Almasoud et al., "An Energy-Efficient Internet of Things Relaying System for Delay-Constrained Applications," IEEE Access, vol. 10, pp. 82259 - 82271, Institute of Electrical and Electronics Engineers (IEEE), Jan 2022.
The definitive version is available at https://doi.org/10.1109/ACCESS.2022.3196836
Electrical and Computer Engineering
Keywords and Phrases
Delay; Internet-Of-Things Devices; IoT Relays; Relay Planning; Transmission Deadline
International Standard Serial Number (ISSN)
Article - Journal
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01 Jan 2022