Original scientific paper
https://doi.org/10.32985/ijeces.13.4.3
An Optimized Distributed Routing Protocol for Energy Management Systems Based on Wireless Sensor Networks in Intelligent and Smart Structures
Ahmed Hammad
orcid.org/0000-0002-0631-2019
; University of Mansoura, Faculty of Engineering, Department of Electronics and Communications Engineering Mansoura, Egypt
M.A. Mohamed
; University of Mansoura, Faculty of Engineering, Department of Electronics and Communications Engineering Mansoura, Egypt
Heba M. Abdel-Atty
; University of Port Said, Faculty of Engineering, Department of Electrical Engineering Port Said, Egypt
Abstract
Energy and spectrum efficiency for energy management systems based on wireless sensor networks in intelligent structures and powered by ambient energy harvesting (EH) are the main problems in wireless sensor networks. Herein, we consider relay selection methods. To address this issue, we proposed the optimal multiantenna power beacon opportunistic relay selection (OMPB-ORS) protocol, which uses decoding and forward methods, in which the relay wireless sensor nodes and the second source are energy-restricted and can harvest energy from a power beacon (PB) multiantenna to transmit aggregated information data from source to destination. The proposed protocol based on specific s witching t ime r eceiver a rchitecture e nhances e nd-to-end p erformance f or m aximum h ardware impairments and interference for the transceiver. To evaluate the performance, we compared our proposed protocol with best ORS (B-ORS), conventional ORS (C-ORS), and hybrid partial relay selection (H-PRS) protocols. Using the Rayleigh-fading channel, the simulation is driven based on asymptotic and exact form expressions of throughput (TP) and outage probability (OP). Simulation results show that the OMPB-ORS protocol achieves a higher TP and OP than all compared protocols.
Keywords
wireless sensor networks; energy harvesting; multiantenna power beacon; partial relay selection; opportunistic relay selection; hardware malfunctions
Hrčak ID:
280365
URI
Publication date:
2.6.2022.
Visits: 658 *