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Enhancing the 'Willingness' on the OLSR Protocol to Optimize the Usage of Power Battery Power Sources Left
Saaidal Razalli Azzuhri, Suhazlan Suhaimi, K. Daniel Wong
Pages - 12 - 26     |    Revised - 04-08-2008     |    Published - 16-09-2008
Volume - 2   Issue - 3    |    Publication Date - June 2008  Table of Contents
Multipoint-relay, ad-hoc, cross platform, OLSR, MANET
Mobile ad-hoc networks are infrastructure-free and highly dynamics wireless networks. There are many routing protocols for Mobile Ad Hoc Networks (MANET). One of the popular routing protocols is Optimized Link State Routing (OLSR). OLSR was developed to work independently from higher-layer protocols and it creates an underlying architecture for communication without the help of traditional fixed-position routers. In addition, OLSR attempts to maintain the communication routes for the mobile nodes that have limited transmission range. This paper discusses the OLSR implementation in terms of battery power status and its advantages particularly pertaining to the relationship between the power status function with the OLSR by modify some of the OLSR source code. The study also focuses on maximizing the use of the battery power sources. The results from the experiment show that the usage of the battery power sources left was maximally used when the “Willingness” for the nodes was indeed increased. We will conclude that the experiments have been successfully done and the results demonstrate the improvement for the OLSR nodes to maximize the battery power sources usage on the MANET by enhancing the “Willingness” on the OLSR protocol.
CITED BY (7)  
1 Gupta, M. C., & Sharma, L. D. Performance Comparison of Multihop Wireless ADHOC Routing Protocols AODV, OLSR & TORA.
2 Toutouh, J., Nesmachnow, S., & Alba, E. (2013). Fast energy-aware OLSR routing in VANETs by means of a parallel evolutionary algorithm. Cluster Computing, 16(3), 435-450.
3 Malik, R. F., Rahman, T. A., Ngah, R., Mohd, S. Z., & Hashim, H. (2012). The new multipoint relays selection in OLSR using particle swarm optimization. TELKOMNIKA (Telecommunication Computing Electronics and Control), 10(2), 343-352.
4 Mostafavi, M. A., Moghanjoughi, A. A., & Mousavi, H. (2012). A Review and Performance Analysis of Reactive and Proactive Routing Protocols on MANET. Network and Communication Technologies, 1(2), p48.
5 Hammoshi, M. (2012). Measuring OLSR Performance Factors With Different Scale Networks. International Journal of Advancements in Computing Technology, 4(1).
6 Toutouh, J., & Alba, E. (2012, July). Green OLSR in VANETs with differential evolution. In Proceedings of the 14th annual conference companion on Genetic and evolutionary computation (pp. 11-18). ACM.
7 Dr. M. Hammoshi, Measuring OLSR Performance Factors With Different Scale Networks International Journal of Advancements in Computing Technology (IJACT), 4(1), pp. 116-126, January 2012.
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1 C. Guillaume, & Eric F. (2002). Ananas: A New Ad hoc Network Architectural Scheme. INRIA Research Report 4354.
2 Aleksandr H. (2004). Comparing AODV and OLSR Routing Protocols. Telecommunication Software and Multimedia Laboratory, Helsinki University of Technology. Sjokulla.
3 Laoutti, Muhlethaler P., Najid A.,& Plakoo E. (2002). Simulation Results of the OLSR Routing Protocol for Wireless Network. 1st Mediterranean Ad-Hoc Networks workshop (Med-Hoc-Net). Sardegna, Italy.
4 Viennot L. (1998). Complexity Results onElection of Multipoint Relays in Wireless Networks. Technical Report, INRIA.
5 Jacquet P., Laouitti A., Minet P., & Viennot L. (2001). Performance Analysis of OLSR Multipoint Relay Flooding in Two Ad-Hoc Wireless Network Models. Research Report 4260. RSRCP Journal Special Issue on Mobility and Internet. INRIA.
6 Jacquet P., Minet P., Muhlethaler P., Rivierre N. (1996). Increasing Reliability in Cable Free Radio LANs: Low Level Forwarding in HIPERLAN. Wireless Personal Communications.
7 Jacquet P., Minet P., Muhlethaler P., Rivierre N. (1996). Increasing Reliability in Cable Free Radio LANs: Low Level Forwarding in HIPERLAN. Wireless Personal Communications.
8 Clausen T., Jacquet P. (2003). Request for Comment: 3626. Experimental Project Hipercom.
Mr. Saaidal Razalli Azzuhri
Electrical Engineering Department, Faculty of Engineering - Malaysia
Mr. Suhazlan Suhaimi
Faculty of Information & Communication Technology - Malaysia
Mr. K. Daniel Wong
Department of Information Technology Malaysia University of Science & Technology - Malaysia