Title :
Routing protocol for low power lossy networks
Author :
Mercy Amrita, C. ; Pravin Renold, A.
Author_Institution :
Dept. of TIFAC-CORE in Pervasive Comput. Technol., Velammal Eng. Coll., Chennai, India
Abstract :
The impact of critical level of patients has seen continuous monitoring of them as a basic requirement, which is implanted using vivo sensors. Power dissipation and antenna radiation which affects the tissues due to overheating remains a challenge to be addressed. This paper deals with the enhancement of RPL (Routing protocol for low power and lossy networks) with temperature metric in body area networks, as it reduces the routing inconsistencies and is able to self- repair the network. The proposed system is based on the idea of Thermal aware RPL. The advantage of this system would be in uniquely setting the temperature thresholds for each sensor as it would avoid affecting the tissue due to high temperature level. Proposed algorithm is implemented in Contiki operating system using Cooja simulator.
Keywords :
biomedical telemetry; body area networks; body sensor networks; health care; patient monitoring; personal area networks; Contiki operating system; Cooja simulator; RPL enhancement; antenna radiation; body area networks; continuous patient monitoring; critical patient level impacts; low power lossy networks; network self- repair; overheating; power dissipation; routing inconsistencies; routing protocol for low power and lossy networks; temperature metric; temperature thresholds setting; thermal aware RPL; tissue-affecting temperature level; tissues; vivo sensors; Lead; Measurement; Routing; Telecommunications; Temperature sensors; Body Area Networks; Overheating; Routing Protocol for Low Power Lossy Networks; hotspots; routing; temperature; threshold;
Conference_Titel :
Advanced Communication Control and Computing Technologies (ICACCCT), 2014 International Conference on
Conference_Location :
Ramanathapuram
Print_ISBN :
978-1-4799-3913-8
DOI :
10.1109/ICACCCT.2014.7019343
