The new enhancement of OLSR energy-saving system in adhoc network
In Mobile Ad Hoc Networks (MANETs), network nodes typically have short lifespansgiven that they are mobile, self-reconfigurable, and dependent on the battery power. Tohelp mitigate such a problem, the Optimize Link State Routing protocol (OLSR) isconsidered the most appropriate routing protocol to e...
Saved in:
| 主要作者: | |
|---|---|
| 格式: | thesis |
| 語言: | eng |
| 出版: |
2018
|
| 主題: | |
| 在線閱讀: | https://ir.upsi.edu.my/detailsg.php?det=5688 |
| 標簽: |
添加標簽
沒有標簽, 成為第一個標記此記錄!
|
| id |
oai:ir.upsi.edu.my:5688 |
|---|---|
| record_format |
uketd_dc |
| institution |
Universiti Pendidikan Sultan Idris |
| collection |
UPSI Digital Repository |
| language |
eng |
| topic |
TK Electrical engineering Electronics Nuclear engineering |
| spellingShingle |
TK Electrical engineering Electronics Nuclear engineering Suhazlan Suhaimi The new enhancement of OLSR energy-saving system in adhoc network |
| description |
In Mobile Ad Hoc Networks (MANETs), network nodes typically have short lifespansgiven that they are mobile, self-reconfigurable, and dependent on the battery power. Tohelp mitigate such a problem, the Optimize Link State Routing protocol (OLSR) isconsidered the most appropriate routing protocol to extend nodes' lifespans. As such,this study was undertaken with the main aim to enhance the energy-saving system ofMANET, with which nodes can function without failure by using a newly developedalgorithm of the OLSR protocol. Specifically, the study involved the developments ofthree schemes, namely a new Load Balance Energy Distributed (LBED) scheme, a newenhancement energy-saving (NEES) scheme, and a New Enhanced OLSR WillingnessCalculation (NEWC) scheme. Accordingly, a series of simulations was carried out tomeasure and quantify the performances of the LBED, NEES and NEWC schemes usingthe OLSR protocol. The performance criteria were based on the level of remainingbattery power (measured in percentage points), energy consumption, and number oflivenodes based on high data transmission rate and high mobility speed requirements. Thesimulations performed yielded several promising, interesting results. The new enhancedenergy-saving system was able to improve the battery power consumption significantlyby as much as 20%. Most promising, the mean percentage of network improvementusing the new enhancement energy-saving system was 48.18%, which was significantlyhigh compared to that of existing OSLR protocol. Such findings suggest that the newenhancement energy-saving system will be able to further improve the performance ofMANETs by making such networks more stable and reliable. In addition, the newenhancement energy-saving system was applied to a number ofnetwork scenarios basedon high mobility speed and high data transmission rate, the findings of which helpedformulate a solution matrix. This matrix can serve as a network configuration tool tohelp guide practitioners (especially network administrators) in setting up appropriatemobile networks that are badly needed to establish communication in critical situationsinvolving highly mobile nodes. Overall, the research findings suggest that the proposednew enhancement energy-saving system of the OLSR protocol can help improve theuse of battery energy in MANETs through efficient distribution of energy to networknodes. Effectively, such energy-efficient distribution can help prolong the life of eachnode, directly improve the selection of nodes as MPR nodes, provide more alternativeroutes in the network, and evenly distribute data transmission tasks to all nodes.Furthermore, the findings underscore the importance of selecting appropriate levels ofcritical parameters (e.g., the number ofnodes, size ofthe network space, mobility speed,and data transmission rate) that collectively will have a huge impact on the mobilenetwork performance. In this regard, practitioners can refer to the solution matrix toselect the most appropriate levels of such parameters that can help optimize the energyconsumption of the battery, thus leading to a stable, reliable mobile network. |
| format |
thesis |
| qualification_name |
|
| qualification_level |
Doctorate |
| author |
Suhazlan Suhaimi |
| author_facet |
Suhazlan Suhaimi |
| author_sort |
Suhazlan Suhaimi |
| title |
The new enhancement of OLSR energy-saving system in adhoc network |
| title_short |
The new enhancement of OLSR energy-saving system in adhoc network |
| title_full |
The new enhancement of OLSR energy-saving system in adhoc network |
| title_fullStr |
The new enhancement of OLSR energy-saving system in adhoc network |
| title_full_unstemmed |
The new enhancement of OLSR energy-saving system in adhoc network |
| title_sort |
new enhancement of olsr energy-saving system in adhoc network |
| granting_institution |
Universiti Pendidikan Sultan Idris |
| granting_department |
Fakulti Seni, Komputeran dan Industri Kreatif |
| publishDate |
2018 |
| url |
https://ir.upsi.edu.my/detailsg.php?det=5688 |
| _version_ |
1747833218386624512 |
| spelling |
oai:ir.upsi.edu.my:56882021-03-22 The new enhancement of OLSR energy-saving system in adhoc network 2018 Suhazlan Suhaimi TK Electrical engineering. Electronics Nuclear engineering In Mobile Ad Hoc Networks (MANETs), network nodes typically have short lifespansgiven that they are mobile, self-reconfigurable, and dependent on the battery power. Tohelp mitigate such a problem, the Optimize Link State Routing protocol (OLSR) isconsidered the most appropriate routing protocol to extend nodes' lifespans. As such,this study was undertaken with the main aim to enhance the energy-saving system ofMANET, with which nodes can function without failure by using a newly developedalgorithm of the OLSR protocol. Specifically, the study involved the developments ofthree schemes, namely a new Load Balance Energy Distributed (LBED) scheme, a newenhancement energy-saving (NEES) scheme, and a New Enhanced OLSR WillingnessCalculation (NEWC) scheme. Accordingly, a series of simulations was carried out tomeasure and quantify the performances of the LBED, NEES and NEWC schemes usingthe OLSR protocol. The performance criteria were based on the level of remainingbattery power (measured in percentage points), energy consumption, and number oflivenodes based on high data transmission rate and high mobility speed requirements. Thesimulations performed yielded several promising, interesting results. The new enhancedenergy-saving system was able to improve the battery power consumption significantlyby as much as 20%. Most promising, the mean percentage of network improvementusing the new enhancement energy-saving system was 48.18%, which was significantlyhigh compared to that of existing OSLR protocol. Such findings suggest that the newenhancement energy-saving system will be able to further improve the performance ofMANETs by making such networks more stable and reliable. In addition, the newenhancement energy-saving system was applied to a number ofnetwork scenarios basedon high mobility speed and high data transmission rate, the findings of which helpedformulate a solution matrix. This matrix can serve as a network configuration tool tohelp guide practitioners (especially network administrators) in setting up appropriatemobile networks that are badly needed to establish communication in critical situationsinvolving highly mobile nodes. Overall, the research findings suggest that the proposednew enhancement energy-saving system of the OLSR protocol can help improve theuse of battery energy in MANETs through efficient distribution of energy to networknodes. Effectively, such energy-efficient distribution can help prolong the life of eachnode, directly improve the selection of nodes as MPR nodes, provide more alternativeroutes in the network, and evenly distribute data transmission tasks to all nodes.Furthermore, the findings underscore the importance of selecting appropriate levels ofcritical parameters (e.g., the number ofnodes, size ofthe network space, mobility speed,and data transmission rate) that collectively will have a huge impact on the mobilenetwork performance. In this regard, practitioners can refer to the solution matrix toselect the most appropriate levels of such parameters that can help optimize the energyconsumption of the battery, thus leading to a stable, reliable mobile network. 2018 thesis https://ir.upsi.edu.my/detailsg.php?det=5688 https://ir.upsi.edu.my/detailsg.php?det=5688 text eng closedAccess Doctoral Universiti Pendidikan Sultan Idris Fakulti Seni, Komputeran dan Industri Kreatif Ahmed, D. M., & Khalifa, 0. 0. (2017). Perfonnance Evaluation of Enhanced MANETsRouting Protocols Under Video Traffics, for Different Mobility And Scalability Models Using OPNET.American Journal of Engineering Research (AJER), 6(7), 329-346.Kurkowski, S., Navidi, W., & Camp, T. (2007). Constructing MANET Simulation ScenariosThat Meet Standards. IEEE International Conference on Mobile Adhoc and Sensor Systems 2007.IEEE. doi:10.1109/MOBHOC.2007.4428640Laouti, A., Muhlethaler, P., Najid, A., & Plakoo, E. (2002). Simulation Results of the OLSRRouting Protocol for Wireless Network. Institut National De Recherche En Informatique Et EnAutomatique.Adam, G., Bouras, C., Gkamas, A., Kapoulas, V., Kioumourtzis, G., & Tavoularis, N. (2011). Performance evaluation of routing protocols for multimedia transmission overmobile ad hoc networks. .Jth Joint IFIP In Wireless and Mobile Networking Conference(WMNCJ (pp. 1-6). IEEE.Ade, S. A., & Tijare, P.A. (2010). Performance comparison of AODV, DSDV, OLSR andDSR routingprotocols in mobile ad hoc networks. International Journal of Information Technology and KnowledgeManagement, 2(2), pp. 545-548.Adoni, K. A., & Joshi, R. D. (2012). Optimization of energy consumption for OLSRrouting protocol in MANET. International Journal of Wireless & Mobile Networks (JJWMN),4, pp. 251-262.Ahn, J. H., & Lee, T. J. (2014). Multipoint relay se]ection for robust broadcast in ad hocnetworks. Ad Hoc Networks, 17, 82-97.Ahuja, R. (2010). Simulation based performance evaluation and comparison of reactive, proactiveand hybrid routing protocols based on random waypoint mobility model. International Journalof Computer Applications, 7.Alani, H., & Alsaqour, R. (2017). ROUTING DISCOVERY SCHEME FOR HIGHMOBILITY IN MANET. ARPN Journal of Engineering and Applied Sciences,12(2).Aleksandr, H. (2004). Comparing AODV and OLSR Routing Protocols. Proc.Telecommunication Software Multimedia, (pp. 1-9).Alfred, V. A, Brian, W. K., & Peter, J. W. (1988). The AWK Programming Langguage.Murray Hill, New Jersey: Addison-Wesley.Alfred, V. A, Brian, W. K., & Peter, J. W. (1987). The AWKprogramming language.Boston, MA, USA: Addison-Wesley Longman Publishing Co., Inc.Alnabhan, M., Alshuqran, M., Hammad, M., & Nawayseh, M. A (2017). 'PerformanceEvaluation ofUnicast Routing Protocols in MANETs - Current State and FutureProspects. International Jurnal ofInteractive Mobile Technologies.Amin, M., Abrar, M., Khan, Z. D., & Andusalam, R. (2011). Comparison ofOLSR &DYMO Routing Protocols on the Basis of Different Performance Metrics inMobile Ad-Hoc Networks. American Journal ofScientific Research, 34-57.Anand, V., & Sairam, N. (2015). Methodologies for addressing the performance issuesof routing in Mobile Ad hoc Networks: A Review. Indian Journal of Scienceand Technology, 8(15).Arce, P., Guerri, J. C., Pajares, A, & Lazaro, O. (2008). Performance evaluation ofvideo streaming over ad hoc networks using flat and hierarchical routingprotocols. Mobile Networks and Applications, 13(3-4), pp. 324-336.Basurra, S. S. (2015). Energy efficient zone based routing protocol for MANETs. AdHoc Networks, 25(PA), 16-37. doi:https:lldoi.orgIl0.1016/j.adhoc.2014.09.01OBelkheir, M., Qasem, Z., Bouziani, M., & Zerroug, A (2014). Ad hoc Network LifetimeEnhancement by Energy Optimization. Ad Hoc & Sensor Wireless Network, lB.Bellavista, P., Cardone, G., Corradi, A., & Foschini, L. (2013). Convergence ofMANET and WSN in loT urban Scenarios. IEEE Sensors Journal, 13(10),3558-3567.Bhatia, T., & Verma, A K. (2015). QoS Comparison of MANET Routing Protocols.International Journal ofComputer Network and Informatton Security, 7(9),64.Bisht, A K., Kumar, B., & Mishra, S. (2012). Efficiency evaluation of routing protocolsfor vehicular ad-hoc networks using city scenario. International Conference onComputer Communication and Informatics (ICCCI) (pp. 1-7). IEEE.Bisoy, S. K., & Pattnaik, P. K. (2014). Impact of Radio Propagation Model and Mobilityin On-Demand Routing Protocol ofMANET. Journal ofTheoretical & AppliedInformation Technology, 65(1),30-45.Bosunia, M. R., Jeong, D. P., Park, C., & Jeong, S.-H. (2015). A New Routing Protocolwith High Energy Efficiency and Reliability for Data Delivery in Mobile AdHoc Networks. International Jurnal 0/Distributed Sensor Network, 11 (8).Boushaba, A, Benabbou, A, Benabbou, R., Zahi, A, & Oumsis, M. (2015). Multipointrelay selection strategies to reduce topology control traffic for OLSRprotocol in MANETs. Journal ofNetwork and Computer Applications, 53,91-102.Cano, 1. -C., & Manzoni, P. (2000). A Performance Comparison of EnergyConsumption for Mobile Ad Hoc Networks Routing Protocols. Modeling,Analysis and Simulation 0/ Computer and Telecommunication Systems, 2000.Proceedings. 8th International Symposium on (pp. 57-64). IEEE.Chappell, L., & Combs, G. (2012). WiresharkNetworkAnalysis The Official WiresharkNetwork Analyst Study Guide (2 ed.). Chappell University. Retrieved fromhttps://books.google.com.my/books?id=x4iaLgEACAAJChappell, L., & Combs, G. (2012). Wireshark Network Analysis: The OfficialWireshark Network Analyst Study Guide (2 ed.). Chappell University.Cheng, B.-C., & Tseng, R.-Y. (2011). A Context Adaptive Intrusion Detection Systemfor MANET. Journal Computer Communications, 34(3), 310-318.Chizari, H., Hosseini, M., Salleh, S., Razak, S. A, & Abdullah, A. H. (2012). EF-MPR,a new energy eFficient multi-point relay selection algorithm for MANET. TheJournal ofSupercomputing, 59(2), 744-761.Choudhury, P., Sarkar, A., & Debnath, N. C. (2011). Deployment of Service OrientedArchitecture in MANET: A Research Roadmap. 2011 9th IEEE InternationalConference on Industrial Informatics (pp. 666-670). IEEE.Clausen, T. (2008). draft-clausen-manet-linktype-OO - The MANET Link Type. France:Internet Engineering.Clausen, T., & Jacquet, P. (3 Juy, 2003). IETF MANET Working Group. Retrieved fromhttps:lltoolsjetf.org/idldraft-ietf-manet-olsr-11.txtClausen, T., & Jacquet, P. (October, 2003). Network Working Group. Retrieved fromRequest for Comments: 3626: https:lltools.ietf.org/html/rfc3626Clausen, T., & Jacquet, P. (2003). Optimized Link State Routing Protocol. ProjectHipercom, INRIA.Costagliola, N., Lopez, P. G., Oliviero, F., & Romano, S. P. (2012). Energy-and delayefficientrouting in mobile ad hoc networks. Mobile Networks andApplications,17(2), pp. 281-297.Dahiya, V., Sangwan, R., Duhan, M., & Dalal, K. (2013). OLSR v2 Implementationand Performance Evaluation over OLSRvl in MANET using QualNet 6.1. Int.J. Sci. Eng. Res, 4,2458-2463.Dashbyamba, N., Wu, C., Ohzahata, S., & Kato, T. (2013). An improvement of OLSRusing fuzzy logic based MPR selection. APNOMS, (pp. 1-6).De, R. F., Fotino, M., & Marano, S. (2008). EE-OLSR: energy efficient OLSR routingprotocol for mobile ad-hoc networks. MILCOM 2008-2008 IEEE MilitaryCommunications Conference (pp. 1-7). IEEE.Dhurandher, S. K., Obaidat, M. S., & Gupta, M. (2010). A reactive optimized link staterouting protocol for mobile ad hoc networks. 17th IEEE InternationalConference on Electronics, Circuits, and Systems (ICECS) (pp. 367-370). IEEE.Divecha, B., Abraham, A., Grosan, C., & Sanyal, S. (2017). Impact of Node Mobilityon MANET Routing Protocols Models. Journal of Digital InformationManagement, 5(1).Fatima, L., & Najib, E. (2012). Mobility support in OLSR routing protocol. In Networkcomputing and information security (pp. 804-812). Berlin Heidelberg: SpringerFloriano, R. D., Cano, J.-C., Fotino, M., Calafate, C., Manzoni, P., & Marano, S. (2008).OLSR vs DSR: A comparative analysis of proactive and reactivemechanismsfrom an energetic point of view in wireless ad hoc networks.Computer Communications, 3843-3854.Fotino, M., & De, R. F. (2011). Energy issues and energy aware routing in wireless adhoc networks. INTECH Open Access Publisher.Fotino, M., Gozzi, A., Cano, J. C., Calafate, C., De Rango, F., Manzoni, P., & Marano,S. (2007). Evaluating energy-aware behaviour of proactive and reactive routingprotocols for mobile ad hoc networks. 10th International Symposium onPerformance Evaluation of Computer and Telecommunication Systems(SPECTS'07), (pp. 16-18).Francisco, R. J., & Pedro, R. M. (2004). Implementing a New Manet Unicast RoutingProtocol in NS2. Engineering, 1-35.Gautam, S., & Kumar, R. (2012). A Review of Energy-Aware Routing Protocols inMANETs. International Journal of Modern Engineering Research (IJMER),2(3).Geetha, 1., & Ganapathy, G. (2008). Reference Point Group Mobility and RandomWaypoint Models in Performance Evaluation of MANET Routing Protocols.Journal ofComputer Systems Networks and Communications.Ghanem, N., Boumerdassi, S., & Renault, E. (2005). New energy saving mechanismsfor mobile ad-hoc networks using OLSR. Proceedings of the 2nd ACMinternational workshop on Performance evaluation ofwireless ad hoc, sensor,and ubiquitous networks (pp. 273-274). ACM.Goswami, S., Agrawal, C., & Jain, A. (2015). Location Based Energy Efficient Schemefor Maximizing Routing Capability of AODV Protocol in MANET.International Journal Wireless and Microwave Technologies, 3,33-44.Goswami, S., Agrawal, C., & Jain, A. (2015). Location Based Energy Efficient Schemefor Maximizing Routing Capability of AODV Protocol in MANET.International Journal Wireless and Microwave Technologies, 3,33-44.Gujral, R. K., & Singh, M. (2011). Performance analysis of ad hoc routing protocols forvoice communication support over hybrid MANETs. International Journal ofComputer Applications, 22(3), 42-48.Guo, Z., Malakooti, S., Sheikh, S., Al-Najjar, C., Lehman, M., & Malakooti, B. (2011).Energy aware proactive optimized link state routing in mobile ad-hoc networks.Applied Mathematical Modelling, 35(10).Gupta, A. K., Sadawarti, H., & Vema, A. K. (2013). Performance analysis ofMANETrouting protocols in different mobility models. International Journal ofInformation Technology and Computer Science (!JITCS), 5(6), p. 73.Hammoshi, M. (2012). Measuring OLSR Performance Factors With Different ScaleNetworks. International Journal ofAdvancements in Computing Technology, 4,pp. 116-126. doi: 10.4156/ijact.voI4.issue1.13Hamrioui, S., Lalam, M., & Lorenz, P. (2012). A new approach for energy efficiencyin MANET based on the OLSR protocol. International Journal of Wireless andMobile Computing, 5(3),292-299.Herberg, U., & Clausen, T. (2011). A comparative performance study of the routingprotocols load and rpl with bi-directional traffic in low-power and lossynetworks (lIn). In Proceedings of the 8th ACM Symposium on Performanceevaluation of wireless ad hoc, sensor, and ubiquitous networks (pp. 73-80).ACM.Hussain, A. M., & Khader, P. S. (2013). An enhanced approach to reduce rerouting timein MANETs. International Conference on Emerging Trends in Computing,Communication and Nanotechnology (ICE-CCN) (pp. 62-67). IEEE.Hwang, C. J., Kush, A., & Taneja, S. (2011). Making MANET energy efficient. InMobile Congress (GMC). Mobile Congress (GMC) (pp. 1-6). Global: IEEE.Igbesoko, E. E., Eze, T. 0., & Ghassemian, M. (2010). Performance analysis ofMANET routing protocols over different mobility models. Proceedings of theLondon Communications Symposium (LCS), University College London.Ikeda, M., Kulla, E., Hiyama, M., Barolli, L., & Takizawa, M. (2011). Experimentalresults of a manet testbed in indoor stairs environment. In 2011 IEEEInternational Conference on Advanced Information Networking andApplications (pp. 779-786). IEEE.Islam, M. S., Riaz, A., & Tarique, M. (2012). Performance analysis of routing protocolsof mobile ad hoc networks for VoIP applications. Cyber Journals:Multidisciplinary Journals in Science and Technology, Journal of SelectedAreas in Telecommunications (JSAT), 26-33.Jabbar, W. A., Ismail, M., & Nordin, R. (2014). Performance evaluation ofMBA-OLSRrouting protocol for MANETs. Journal of computer networks andcommunications.Jacquet, P., Laouiti, A., & Minet, P. (2001). Performance analysis ofOLSR multipointrelay flooding in two ad hoc wireless network models. RAPPORT DERECHERCHE-.Jacquet, P., Muhlethaler, P., Qayyum, A., Laouiti, A., Viennot, L., & Clausen, T. (2March, 2001). IETF MANET Working Group. Retrieved fromhttps:lltools.ietf.orglhtmlldraft-ietf-manet-olsr-04Jain, P., & Suryavanshi, A. (2014). Energy efficient Local Route Repair multicastAODV routing schemes in Wireless Ad hoc Network. International Conferenceon Advanced Communication Control and Computing Technologies(ICACCCT), 2014. India: IEEE. doi:lO.l109/ICACCCT.2014.7019282Jangra, A., & Bhardwaj, N. (2014). RAINs: Recursive algorithm for impostor nodeselection to balance the load in MANETs. International Conference onCommunications and Signal Processing (ICCSP), 2014. India: IEEE.Javaid, N., Bibi, A., Bouk, S. H., Javaid, A., & Sasase, 1. (2012). Modelingenhancements in DSR, FSR, OLSR under mobility and scalability constraints inVANETs. 2012 IEEE International Conference on Communications (ICC) (pp.6504-6508). IEEE.Javaid, N., Bibi, A., Khan, Z. A., Khan, U., & Djouani, K. (2012). Evaluating wirelessproactive routing protocols under scalability and traffic constraints. In 2012IEEE International Conference on Communications (ICC) (pp. 477-781). IEEE.Jyoti, U., & Nitin, M. (2016). A Survey - Energy Efficient Routing Protocols inMANET. International Journal of Future Generation Communication andNetworking, 9(5), 163-168.K, P. M. (2015). Extended ECDSR protocol for energy efficient MANET. Proceedingsof the 2nd International Conference on Advanced Computing andCommunication Systems. Proceedings of the 2nd International Conference onAdvanced Computing and Communication Systems.Kanakaris, V., Nzdi, D., & Azzi, D. (2010). Ad-hoc networks energy consumption: areview of the ad-hoc routing protocols. Journal of Engineering Science andTechnology Review (JESTR), 3(1), 162-167.Kaushik, S. K., Chahal, K., Singh, S., & Dhariwal, S. (2012). Performance evaluationof mobile Ad hoc networks with reactive and proactive routing protocols andmobility models. International Journal ofComputer Applications, 54(17).Kristensen, M. D., & Bouvin, N. O. (2007). Energy Efficient Routing in NomadicNetworks. PerCom Workshops, (pp. 99-103).Kumar, R., Arora, R., & Singla, R. K. (2011). Simulation analysis of optimized linkstate routing protocol in wireless sensor networks. International Conference onEmerging Trends in Networks and Computer Communications (ETNCC) (pp.192-194). IEEE.Kumar, J. (2012). Comparative performance analysis of AODV, DSR, DYMO, OLSRand ZRP routing protocols in MANET using varying pause time. InternationalJournal ofComputer Communications and Networks (IJCCN), 3(1), 43-5l.Kumar, J. (2013). CBR Based Performance Analysis of OLSR Routing Protocol inMANETs. International Journal ofComputer Science and Business InformaticsIJCSBI, 3(1).Kumar, J. (2013). Performance Analysis and Simulation ofOLSR Routing Protocol inMANET. International journal of Computer Networking and Communication(IJCNAC), 1.Kumar, M. 1., & Rajesh, R. S. (2009). Performance analysis of MANET routingprotocols in different mobility models. IJCSNS International Journal ofComputer Science and Network Security, 9(2), pp. 22-29.Kunz, T. (2008). Energy-efficient variations of OLSR. International WirelessCommunications and Mobile Computing Conference (pp. 517-522). IEEE.Kunz, T., & Alhalimi, R. (2010). Energy-efficient proactive routing in MANET: Energymetrics accuracy. Ad Hoc Networks, 8(7), pp. 755-766.Kuppusamy, P., Thirunavukkarasu, K., & Kalaavathi, B. (2011). A study andcomparison of OLSR, AODV and TORA routing protocols in ad hoc networks.3rd International Conference on Electronics Computer Technology (ICECT). 5,pp. 143-147. IEEE.La, C. A., Varga, L. 0., Heusse, M., & Duda, A. (2014). Energy-efficient multi-hopbroadcasting in low power and lossy networks. Proceedings of the 17th ACMinternational conference on Modeling, analysis and simulation ofwireless andmobile systems (pp. 41-50). ACM.Lalitha, V., & Rajesh, R. S. (2014). AODV_RR: A Maximum Transmission RangeBased Ad Hoc on-Demand Distance Vector Routing in MANET. WirelessPersonal Communications, 78(1),491-506.Lanjwar, M. N., & Nitnaware, M. D. (2012). Performance analysis of routing protocolsfor battlefield monitoring system. International Journal of ScientificEngineering and Technology, 1(2),55-58.Lee, A., & Ra, I. (2015). Performance analysis of ad hoc routing protocols based onselective forwarding node algorithms. Multimedia Tools and Applications,74(16),6443-6452.Li, L. Y., Zheng, F., Li, C. L., & Yuan, P. Y. (2007). An energy constrained routingprotocol for MANET. Sixth International Conference on Machine Learning andCybernetics, ICMLC 2007, 6, pp. 3205-3210.Lin, T. H., Chao, H. C., & Woungang, I. (2010). An enhanced MPR-based solution forflooding of broadcast messages in OLSR wireless ad hoc networks. MobileInformation Systems, 6(3), pp. 249-257.Loutfi, A., Elkoutbi, M., BenOthman, J., & Kobbane, A. (2014). An energy awarealgorithm for OLSR clustering. annals of telecommunications-annales destelecommunications, 69(3-4),201-207.Maan , F., & Mazhar, N. (2011). MANET routing protocols vs mobility models: Aperformance evaluation. In 2011 Third International Conference on Ubiquitousand Future Networks (ICUFN) (pp. 179-184). IEEE.Maan, F., & Nauman, M. (2011). MANET routing protocols vs mobility models: Aperformance evaluation. 2011 Third International Conference on Ubiquitousand Future Networks (ICUFN), (pp. 179-184).Maccari, L., & Cigno, R. L. (2012). How to reduce and stabilize MPR sets in OLSRnetworks. In 2012 IEEE 8th International Conference on Wireless and MobileComputing, Networking and Communications (WiMob (pp. 373-380). IEEE.Madhubala, P., Sowmiya, R. R., V, B. N., & K, K. J. (2015). Extended ECDSR protocolfor energy efficient MANET. International Conference on AdvancedComputing and Communication Systems (pp. 1-6). IEEE.Mahfoudh, S., & Minet, P. (2008). An energy efficient routing based on OLSR inwireless ad hoc and sensor networks. 22nd International Conference onAdvanced Information Networking and Applications-Workshops, 2008. AINAW2008 (pp. 1253-1259). IEEE.Manaseer, S., & Alhabash, I. (2017). Number of Node Estimation in Mobile Ad HocNetworks. International Jurnal ofInteractive Mobile Technologies, 11 (16).Manickam, P., Baskar, T. G., Girija, M., & Manimegalai, D. D. (2011). Performancecomparisons of routing protocols in mobile ad hoc networks. InternationalJournal OfEngineering Science, 3.Manjhi, J. U. (2016). A Survey - Energy Efficient Routing Protocols in MANET.International Journal ofFuture Generation Communication and Networking, 9,pp. 163-168. doi:http://dx.doi.org/10.14257/ijfgcn.2016.9.5.16Mathews, D., Kannan, S., & Karthik, S. (2012). A Performance Analysis of EnergyAware and Link Stability based Routing Protocols for MANET. InternationalJournal of Advanced Research in Computer Engineering & Technology(lJARCET), 1(8), 171-175.Mccabe, A., Cullen, A., Fredin, M., & Axelsson, L. (2005). A power consumption studyof DSR and OLSR. IEEE Military Communications Conference MIL COM,2005.Meenakshi Yadav, N. U. (2014). Survey on MANET: Routing Protocols, Advantages,Problems and Security. International Journal ofInnovative Computer Science& Engineering, Volume 1( Issue 2), Page No. 12-17.Mishra, M., & Chinara, S. (2012). ESAR: An energy saving ad hoc routing algorithmfor MANET. Fourth International Conference on Advanced Computing(ICoAC) (pp. 1-5). IEEE.Mishra, S., Das, A. x., & Jaisawal, A. K. (2013). Effect of mobility and different datatraffic in wireless ad-hoc network through qualnet. International Journal ofEngineering and Advanced Technology (IJEAT), 2(5),364-368.Mohseni, S., Hassan, R., Patel, A., & Razali, R. (2010). Comparative review study ofreactive and proactive routing protocols in MANETs. 4th IEEE InternationalConference on Digital Ecosystems and Technologies (pp. 304-309). IEEE.Mor, V., & Kumar, H. (2014). Energy efficient wireless mobile networks: A review.International Conference on Optimization, Reliabilty, and InformationTechnology (ICROIT), (pp. 281-285). IEEE.Moussaoui, A., Semchedine, F., & Boukerram, A. (2014). A link-state QoS routingprotocol based on link stability for Mobile Ad hoc Networks. Journal ofNetwork and Computer Applications, 39, pp. 117-125.Nagabhushan, T. N., Prakash, S. S., & Krinkin, K. (2013). Minimum Battery DrainingRate Aware Optimized Link State Routing in Wireless Mesh Network. Proc.13th Conference ofFR UCT Association, (pp. 111-120).Narsimaha, B. (2012). The Performance Comparison of an AODV, DSR, DSDV andOLSR Routing Protocols in Mobile Ad-Hoc Networks. Journal of ComputerApplications (JCA), 5(2).Naseer, S., Hussain, S. A., Raza, 1., Chaudry, S. R., Mirza, J. S., & Raza, M. H. (2012).Mobile ad-hoc network routing protocols: A simulation and performanceanalysis using multimedia traffic. Journal of Basic and Applied ScientificResearch, 2(10), 9925-9930.Natarajan, D., & Rajendran, A. P. (2014). AOLSR: hybrid ad hoc routing protocol basedon a modified Dijkstra's algorithm. EURASIP Journal on WirelessCommunications and Networking. doi:https://doi.org/l 0.1186/1687 -1499-2014-90Natarajan, K., & Mahadevan, G. (2017). Mobility based Performance Analysis ofMANET Routing. International Journal ofComputer Applications, 163( 1 0).Nitnaware, D., & Verma, A. (2008). Energy evaluation Of two on demand routingprotocol under stochastic traffic. The INDICON 2008 IEEE Conference andExhibition on Control, Communications and Automation, 1, pp. 183 -18 7.Obaidat, M. S., Dhurandher, S. K, & Diwakar, K (2011). CASPER: Congestion awareselection of path with efficient routing in multimedia networks. Journal ofInformation Processing Systems, 7(2), 241-260.Ouacha, A., Lakki, N., & Habbani, A. (2013). OLSR protocol enhancement throughmobility integration. 10th IEEE International Conference on Networking,Sensing and Control (ICNSC) (pp. 17-22). IEEE.Palaniappan, S., & Chellan, K. (2015). Energy-efficient stable routing using QoSmonitoring agents in MANET. EURASIP Journal on Wireless Communicationsand Networking.Pandey, A., & Baliyan, M. (2012). Performance Analysis of OSLR and ModifiedVersion of OLSR-ETXlMD/ML in Mesh Networks. International Journal ofComputer Science and Communication Networks, 2(2),268-271.Paramjit, P., & Rupinder , P. (2017). Observing of Mobility Model against ReactiveRouting Protocols. International Journal of Computer Sciences andEngineering, 5(1).Paraskevas, E., Manousakis, K, Das, S., & Baras, 1. S. (2014). Multi-Metric EnergyEfficient Routing in Mobile Ad-Hoc Networks. IEEE Military CommunicationsConference (pp. 1146-1151). IEEE.Patel, D. K., Kumar, R, & Danial, A. K. (2013). Performance Analysis & BehaviouralStudy of Proactive & Reactive Routing Protocols in MANET. InternationalJournal ofAdvanced Research in Computer and Communication Engineering,2(4), 1789-1796.Patil, R, Damodaram, A., & Das, R (2011). Design and Simulation of MANETArchitecture over ZigBee Protocol Suite with Cross Layer Energy aware designfor Performance Optimization. Second International Conference on Signals,System and Automation 2011 (ICSSA 2011) (pp. 10-15). Boca Raton, Florida:Universal Publishers.Patil, V. P. (2012). Reactive and proactive routing protocol performance evaluation forqualitative and quantitative analysis in mobile ad hoc network. InternationalJournal ofScientific and Research Publications, 2(9), 1-8.Periyasamy, P., & Karthikeyan, E. (2013). Performance comparison and evaluation ofdifferent multipath routing protocols based on various scenario and trafficpatterns for mobile ad hoc networks. International Journal of ComputerNetwork and Information Security, 5(1),24.Pozzo, F., Marcenaro, L., Regazzoni, C., & Gesmundo, V. (2012). Location AwareOptimized Link State Routing Protocol. IEEE Military CommunicationsConference In MIL COM 2012 (pp. 1-6). IEEE.Prabu, K., & Subramani, A. (2014). Performance analysis of modified OLSR protocolfor MANET using ESPR algorithm. International Conference on InformationCommunication and Embedded Systems (ICICES) (pp. 1-5). IEEE.Prajapati, S., Patel, N., & Patel R. (2015). Optimizing Performance ofOLSR ProtocolUsing Energy Based MPR Selection in MANET. Fifth International Conferenceon In Communication Systems and Network Technologies (CSNT) (pp. 268-272). IEEE.Prakash, V., Kumar, B., & Srivastava, A. K. (2011). Energy efficiency comparison ofsome topology-based and location-based mobile ad hoc routing protocols.Proceedings of the 2011 International Conference on Communication,Computing & Security (pp. 36-39). ACM.Raffelsberger, c., & Hellwagner, H. (2012). Evaluation of MANET routing protocolsin a realistic emergency response scenario. Proceedings ofthe Tenth Workshopon Intelligent Solutions in Embedded Systems (WISES) (pp. 88-92). IEEE.Rajabhushanam, C., & Kathirvel, A. (2011). Survey of wireless MANET application inbattlefield operations. International Journal ofAdvanced Computer Science andApplications (IJACSA), 2(1).Ramrekha, T. A., Talooki, V. N., Rodriguez, 1., & Politis, C. (2012). Energy efficientand scalable routing protocol for extreme emergency ad hoc communications.Mobile Networks and Applications, 17(2), pp. 312-324.Reema, D., & J, N. B. (2017). Increasing network lifetime by energy-efficient routingscheme for OLSR protocol. International Journal ofEngineering and ComputerScience, 6(6).Rodrigue, D. K., Amadou, I., Chelius, G., & Valois, F. (2012). Routing protocols: Whento use it in terms of energy? In 2012 IEEE Wireless Communications andNetworking Conference (WCNC) (pp. 2763-2768). IEEE.Ron, D., & Negrus, E. (2017). AD HOC Networks for the Autonomous Car. lOPConference Series: Materials Science and Engineering, 252.Safa, H., Karam, M., & Moussa, B. (2013). A novel power aware heterogeneous routingprotocol for MANETs. IEEE 27th International Conference on AdvancedInformation Networking and Applications (AINA), (pp. 175-182). IEEE.Sandeep, J., & Satheesh , K. J. (2015). Efficient Packet Transmission and EnergyOptimization in Military Operation Scenario of MANET. Procedia ComputerScience, 47,400-407.Sandeep, J., & Satheesh, K. J. (2015). Efficient Packet Transmission and EnergyOptimization in Military Operation Scenario of MANET. Procedia ComputerScience 47, 400-407.Sarkohaki, F., Jamali, S., Saadatmand, A., Nejad, E. B., Mosleh, M., Varughese, A. M.,... Kaur, A. (2014). A survey of routing protocols for mobile ad-hoc networkswith comprehensive study of olsr. International Journal Of Computer ScienceAnd Network Solutions., 2(3),52-59.Saxena, M., Phate , N., Mathai, K. J., & Rizvi, M. A. (2014). Clustering based energyefficient algorithm using max-heap tree for manet. Fourth InternationalConference on Communication Systems and Network Technologies (CSNT) (pp.123-127). IEEE.Shelja, Sharma, & Kumar, S. (2014). Performance improvement ofOLSR protocol bymodifying the Routing Table construction mechanism. InternationalConference on Optimization, Reliabilty, and Information Technology (ICROIT),(pp. 182-187). IEEE.Singh, A., & Chadha, D. (2013). A Study on Energy Efficient Routing Protocols inMANETs with Effect on Selfish Behaviour. International Journal ofInnovativeResearch in Computer and Communication Engineering, 1(7), 1386-1400.Singh, P. K. (2012). Influences of TwoRayGround and Nakagami propagation modelfor the performance of adhoc routing protocol in VANET. Int. Journal ofComputer Applications (IJCA), 45(22).Singh, S., & Biradar, S. R. (2012). Comparative Study of Different Routing Protocolsin MANET Based on Simulation Using Ns-2. International Journal ofElectronics and Computer Science Engineering (IJECSE), J(03), 984-991.Sisodia, D. S., Singhal, R., & Khandal, V. (2017). A Performance Review ofIntra andInter-Group MANET Routing Protocols under Varying Speed of Nodes.International Journal ofElectrical and Computer Engineering(IJECE), 7(5).Suganthi, P., & Tamilarasi, A. (2011). Performance of OLSR routing protocol underdifferent route refresh intervals in ad hoc networks. International Journal onComputer Science and Engineering, 3(1), 133-137.Taddia, C., Giovanardi, A., & Mazzini, G. (2006). Energy efficiency in OLSR protocol.2006 3rd Annual IEEE Communications Society on Sensor and Ad HocCommunications and Networks. 3, pp. 792-796. IEEE.Teerawat, I., & Ekrarn, H. (2009). Intorduction to Network Simulator NS2. US:Springer.The Computer Language Company. (1 June, 2013). Retrieved from Computer DesktopEncyclopedia:http://lookup.computerlanguage.comlhost_app/search?cid=C999999&def=6d6f62696c6520616420686f63206e6574776f726b.htmThe Internet Engineering Task Force (IETF). (1992). Retrieved from The InternetEngineering Task Force (IETF) website: https:llwww.ietf.org/The Network Simulator - ns-2. (1989). Retrieved from The Network Simulator - ns-2:https:l/www.isi.eduinsnarn/ns/Toutouh, J., Nesmachnow, S., & Alba, E. (2013). Fast energy-aware OLSR routing inVANETs by means of a parallel evolutionary algorithm. Cluster computing,16(3), pp. 435-450.Valikannu, R, George, A., & Srivasta S K. (2015). A novel energy consumption modelusing Residual Energy Based Mobile Agent selection scheme (REMA) inMANETs. In 2. I. (SPIN) (Ed.), 2nd International Conference on SignalProcessing and Integrated Networks (SPIN) (pp. 334-339). IEEE ConferencePublications.Vasumathi, D., Sainath, N., Moulali, U., & Rao, B. K. (2012). A Survey on PowerAware Routing Protocols in Mobile Adhoc Networks. International Journal ofEngineering Science & Advanced Technology., 2(4), 1001-1007.Wardi, K. H., Higarni, Y., & Kobayashi, S. Y. (2011). Residual energy-based OLSR inmobile ad hoc networks. In Multimedia Technology (ICMT). InternationalConference on Multimedia Technology (ICMT) (pp. 3214-3217). IEEE.Yadav, M., & Uparosiya, N. (2014). Survey on MANET: Routing Protocols,Advantages, Problems and Security. International Journal of InnovativeComputer Science & Engineering, 1(2), 12-17.Yoo, Y., Ahn, S., & Agrawal, D. P. (2010). Impact ofa simple load balancing approachand an incentive-based scheme on MANET performance. Journal of Paralleland Distributed Computing, 70(2), 71-83.Younghwan, Y., Sanghyun, A., & Dharma, P. A. (2010). Impact of a simple loadbalancing approach and an incentive-based scheme on MANET performance.Journal ofParallel and Distributed Computing, 70(2), 71-83.Zhang, X., Kunz, T., LI, L., & Yang, O. (2010). An energy-efficient broadcast protocolin manets: Design and evaluation. Eighth Annual In Communication Networksand Services Research Conference (CNSR) (pp. 199-206). IEEE.Zheng, L. L., F, L. C., & Yuan, P. Y. (2007). An energy constrained routing protocolfor MANET. Proceedings of the Sixth International Conference on MachineLearning and Cybernetics, 6, pp. 3205-3210.Zhihao, G., Shahdi, M., Shaya, S., Camelia, A.-N., & Behnam, M. (2011). MultiobjectiveOLSR for proactive routing in MANET with delay, energy, and linklifetime predictions. Applied Mathematical Modelling, 35(3), 1413-1426. |