Abstract
In this paper, we address the thermal rise and Quality-of-Service (QoS) provisioning issue for an intra-body Wireless Body Area Network (WBAN) having in-vivo sensor nodes. We propose a thermal-aware QoS routing protocol, called TLQoS, that facilitates the system in achieving desired QoS in terms of delay and reliability for diverse traffic types, as well as avoids the formation of highly heated nodes known as hotspot(s), and keeps the temperature rise along the network to an acceptable level. TLQoS exploits modular architecture wherein different modules perform integrated operations in providing multiple QoS service with lower temperature rise. To address the challenges of highly dynamic wireless environment inside the human body. TLQoS implements potential-based localized routing that requires only local neighborhood information. TLQoS avoids routing loop formation as well as reduces the number of hop traversal exploiting hybrid potential, and tuning a configurable parameter. We perform extensive simulations of TLQoS, and the results show that TLQoS has significant performance improvements over state-of-the-art approaches.
Highlights
Thanks to Moore’s law, the continuous decrease in size while growing capacity increase of electronic devices has made it inevitable for the development of tiny and portable devices that can communicateSensors 2015, 15 with each other around the human body
Wireless Body Area Network (WBAN) is equipped with nodes that are wearable and/or implanted, and capable of wireless communication to transmit data to a nearby coordinator known as the Body Coordinator (BC)
We present TLQoS, a Thermal-aware Localized QoS routing protocol for in-vivo sensor nodes in WBAN, which exploits a localized approach in route selection with the aim of satisfying the required QoS demands of diverse in-vivo nodes as well as preventing the formation of highly heated nodes, known as hotspot(s) along the network
Summary
Thanks to Moore’s law, the continuous decrease in size while growing capacity increase of electronic devices has made it inevitable for the development of tiny and portable devices that can communicate. Considering the temperature rise as a striking metric, a number of studies presented thermal-aware communication protocols exploiting the multi-hop communication paradigm for WBAN having in-vivo nodes. These protocols mainly aim to minimize the temperature rise in route selection procedure and ignore the QoS issues. We present TLQoS, a Thermal-aware Localized QoS routing protocol for in-vivo sensor nodes in WBAN, which exploits a localized approach in route selection with the aim of satisfying the required QoS demands of diverse in-vivo nodes as well as preventing the formation of highly heated nodes, known as hotspot(s) along the network.
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