Mobility Management Routing Protocol for Optimized QoS: A Review Study
Citation
MLA Style: Sakshi Aneja, Sumit Mittal, Dhirendra Sharma. Mobility Management Routing Protocol for Optimized QoS: A Review Study International Journal of Engineering Trends and Technology 68.12(2020):146-152.
APA Style:Sakshi Aneja, Sumit Mittal, Dhirendra Sharma. Mobility Management Routing Protocol for Optimized QoS: A Review Study International Journal of Engineering Trends and Technology, 68(12), 146-152.
Abstract
Routing conventions in small power systems with stationary nodes provide union and separation of nodes; similarly, RPL is also ready to manage nodes` Mobility. In any case, the technique toward identifying movable nodes and keeping up the direction-finding hierarchy is extremely moderate. Freedom of Movement is one of the major sources of irregularity in RPL. This article provides the outcomes of current methodologies based on different routing metrics and determines how the combination of multiple metrics can increase RPL performance.
Reference
[1] Jamal Toutouh, Jos`eGarc`ia-Nieto, and Enrique Alba, 1012, Intelligent OLSR Routing Protocol Optimization for VANETs, Ieee Transactions On Vehicular Technology, In Press,1-10
[2] David Carels, Eli De Poorter, Ingrid Moerman, and Piet Demeester, 2015, RPL Mobility Support for Point-to-Point Traffic Flows towards Mobile Nodes, Hindawi Publishing Corporation International Journal of Distributed Sensor Networks, (2015), Article ID 470349, 13 pages
[3] Belghachi Mohamed and Feham Mohamed, QoS Routing RPL for Low Power and Lossy Networks, Hindawi Publishing Corporation International Journal of Distributed Sensor Networks, 2015, Article ID 971545, 10
[4] H. Santhi, N. Jai Sankar, AroshiHanda, and AmanKaul, Improved Associativity Based Routing for Multi-Hop Networks Using TABU Initialized Genetic Algorithm, International Journal of Applied Engineering Research, 11(7) (2016) 4830-4837
[5] Meer M. Khan, M. Ali Lodhi, Abdul Rehman, Abid Khan, and Faisal Bashir Hussain, Sink-to-Sink Coordination Framework Using RPL: Routing Protocol for Low Power and Lossy Networks, Hindawi Publishing Corporation Journal of Sensors, (2016), Article ID 2635429, 11 .
[6] Weisheng Tang, Xiaoyuan Ma, Jun Huang, and Jianming Wei, Toward Improved RPL: A Congestion Avoidance Multipath Routing Protocol with Time Factor for Wireless Sensor Networks, Hindawi Publishing Corporation Journal of Sensors, (2016), Article ID 8128651, 11.
[7] Hossein Fotouhi, Daniel Moreira, Mário Alves, Patrick MeumeuYomsi, , mRPL+: A mobility management framework in RPL/6LoWPAN, Computer Communications Elsevier B.V, (2017) 34–54.
[8] Patrick Olivier Kamgueu, Emmanuel Nataf, Thomas DjotioNdie, Survey on RPL enhancements: A focus on topology, security, and Mobility, Computer Communications Elsevier B. (2018)10–21
[9] HananeLamaazi, Nabil Benamar, Antonio J. Jara, , RPL-based networks in static and mobile environment: A performance assessment analysis, Journal of King Saud University – Computer and Information SciencesElsevier B.V. 2017.
[10] JeongGilKo and Andreas Terzis, Connecting Low-Power and Lossy Networks to the Internet, IEEE Communications Magazine. 2011.
[11] Rahul Sharma and T. Jayavignesh, Quantitative Analysis and Evaluation of RPL with Various Objective Functions for 6LoWPAN, Indian Journal of Science and Technology, 8(19) (2015).
[12] Amol Dhumane, AvinashBagul, and Parag Kulkarni, A review on routing protocol for low power and lossy networks in IoT, International Journal of Advanced Engineering and Global Technology, 03 (12) 2015.
[13] Hyung-Sin Kim, JeongyeupPaek, SaewoongBahk, QU-RPL: Queue Utilization based RPL for Load Balancing in Large Scale Industrial Applications, 12th Annual IEEE International Conference on Sensing, Communication, and Networking (SECON). 2015.
[14] Jad Nassar, Nicolas Gouvy, Nathalie Mitton, Towards Multi-instance QoS Efficient RPL for Smart Grids, 14th ACM International Symposium on Performance Evaluation of Wireless Ad Hoc, Sensor, and Ubiquitous Networks, (2017) 85-92.
[15] Licai Zhu, Ruchuan Wang, Hao Yang, Multi-path Data Distribution Mechanism Based on RPL for Energy Consumption and Time Delay, Preprints (www.preprints.org,), 8 (124) (2017).
[16] MamounQasem, Ahmed Yassin Al-Dubai, Imed Romdhani, BaraqGhaleb, Load Balancing Objective Function in RPL, https://www.researchgate.net/publication/313369944.
[17] HananeLamaazi, Nabil Benamar, Antonio J. Jara, RPL-based networks in static and mobile environment: A performance assessment analysis, Journal of King Saud University – Computer and Information Sciences, pp. (2017)320–333
[18] FatmaSomaa, Braided on Demand Multipath RPL in the Mobility Context, IEEE 31st International Conference on Advanced Information Networking and Applications. 2017.
[19] VidushiVashishth, An energy-efficient routing protocol for wireless Internet-of-Things sensor networks, arXiv:1808.01039v2 [cs. N.I.]. 2019.
[20] Di Marco, Piergiuseppe & Athanasiou, George & Mekikis, Prodromos-Vasileios & Fischione, Carlo. (2013). MAC-aware Routing Metrics for the Internet of Things. Computer Communications. 74. 10.1016/j.comcom.2015.05.010.
[21] X. Xingmei, Z. Jing and W. He, Research on the basic characteristics, the key technologies, the network architecture and security problems of the Internet of things. Proceedings of 2013 3rd International Conference on Computer Science and Network Technology, Dalian, (2013) 825-828, doi: 10.1109/ICCSNT.2013.6967233.
Keywords
Wireless Sensor Networks, Internet Protocol, Low-Power Wireless Networks, Medium Access Control, Routing Protocol for Low-Power and Lossy Networks, Wireless Sensor Networks, QoS.