Temperature Aware and Energy-Efficient Routing for Wireless Body Area Network
Riaz Ud Din, Institute of Computer Sciences and Information Technology (ICS/IT), The University of Agriculture Peshawar, Pakistan.
Javed Iqbal Bangash, Institute of Computer Sciences and Information Technology (ICS/IT), The University of Agriculture Peshawar, Pakistan.
Zahid Ullah, Center of Excellence in IT, Institute of Management Sciences, Peshawar, Pakistan.
Abdul Waheed Khan, Department of Information Technology and Computer Science, PAF-Institute of Applied Sciece and Technology, Haripur, Pakistan.
Hidayat Ullah, Institute of Computer Sciences and Information Technology (ICS/IT), The University of Agriculture Peshawar, Pakistan.
Farhat Ullah Khan, Institute of Computer Sciences and Information Technology (ICS/IT), The University of Agriculture Peshawar, Pakistan.
Corresponding Author:
Riaz Ud Din (riaz677@aup.edu.pk)
Abstract:
Many researchers have proposed different routing wireless body area networks protocol for (WBANs) to overcome the routing challenges such as packets delivery ratio, path loss due to body movement, quantity of service in term of reliability and latency, energy efficiency, throughput, network stability, network life time, end to end delay etc. temperature rise of sensor nodes and energy consumption are not consider in case of wireless body area networks (WBANs). Temperature rise during the radiation excrete by the sensor node antenna which damage the human body tissue and unnecessary data transmission result more energy consumption may decrease network stability. This paper study is based on Temperature Aware and Energy-Efficient Routing for Wireless Body Area Network to overcome these issues and is focused on temperature rise and energy efficiency of WBANs. Simulation results demonstrate the benefits of the proposed study in term of temperature rise and energy consumption of sensor nodes. The finding of the study is that the proposed study got overall good results and achieved significant enhancement in term of throughput, network stability, network life time, end to end delay as compared to E-HARP and ELR-W.
Keywords:
Temperature; End-to-End Delay; Network Stability; WSN; WBANs; TAEER; E-HARP; ELR-W