Mobility Control for Reliable Transmission in Mobile Adhoc Networks
Abstract
Design and evaluation of Mobility Control protocol that responds to dynamic changes in the network topology and works at low data rates for different Mobility Models is one of the biggest challenges in Mobile Ad hoc Network (MANET). Several ad hoc protocols have been designed for fast, accurate, reliable routing but those have limitations like high power consumption, high error rates and low bandwidth. In this paper, we proposed a new mobility control algorithm for improved route availability in highly dynamic safety critical environment where the ad hoc nodes may potentially move out of range from others. The MANET is divided into different clusters and a cluster head is selected from each cluster periodically using weighted cluster algorithm. Using extreme machine learning approach, these cluster heads predict the trajectories of all the nodes in its cluster and run mobility control function for all those nodes that may move out of range from other nodes. This mobility control function updates the future mobility states of the sele cted node. The simulation results report that the proposed approach yield better performance than state of art approaches.
How to cite this article:
Tripathy BK, Jena SK, Sahoo S. Mobility Control for Reliable Transmission in Mobile Adhoc Networks. J Engr Desg Anal 2020; 3(2): 33-39.
References
Loo J, Lloret J, Ortiz JH. Mobile Adhoc Networks: Current Status and Future Trends, Boca Raton, FL, USA: CRC, 2011.
Laneman J, Tse D, Wornell G. Cooperative diversity in wireless networks: Efficient protocols and outage behavior, IEEE Trans. Inf Theory 2004; 50 (12): 30623080.
Nosratinia A, Hunter T, Hedayat A. Cooperative communication in wireless networks, IEEE Commun. Mag 2004; 42(10): 7480.
Grossglauser M, Tse DNC. Mobility increases the capacity of Adhoc wireless networks, IEEE/ ACM Transactions on Networking. 2002; 10(4): 477-486.
Hu Y, Perrig A. A Survey of Secure Wireless Adhoc Routing. IEEE Sec and Privacy, 2004.
Loo J, Lloret J, Ortiz JH. Mobile Adhoc Networks: Current Status and Future Trends, Boca Raton, FL, USA: CRC, 2011.
Li M, Li Z, Vasilakos AV. A Survey on Topology Control in Wireless Sensor Networks: Taxonomy, Comparative Study and Open Issues. IEEE 2013; 101(12).
Wu J, Dai F. Mobility control and its applications in mobile Adhoc networks. IEEE Network 2004; 18(4): 30-35.
Jiang Z, Wu J, Kline R. Mobility Control with Local Views of Neighborhood in Mobile Networks, IEEE International Workshop on Networking, Architecture, and Storages. 2006; 1-6.
Roh HT, Dai F. Joint mission and communication aware mobility control in mobile Adhoc networks, 10th IEEE International Symposium on Modeling and Optimization in Mobile, Adhoc and Wireless Networks (WiOpt), Germany. 2012; 124-129.
Nadeem T, Parthasarathy S. Mobility control for throughput maximization in Adhoc networks, Wiley Wirel. Commun Mob Comput 2006; 6: 951-967.
Kadivar M, Shiri ME, Dahghan M. Distributed topology control algorithm based on one and two hope neighbors information for Adhoc networks. Computer Communications 2009; 32(2): 368-375.
Burri N, Rickenbach PV, Wattenhofer R et al. Topology control made practical: increasing the performance of source routing. 2nd International Conference on Mobile Adhoc and Sensor Networks. 2006; 1-12.
Cartigny J, Simplot D, Stojmenovic I. Localized minimum-energy broadcasting in Adhoc networks. IEEE INFOCOM. 2003; 2210-2217.
Blough D, Leoncini M, Resta G et al. The K-Neigh protocol for symmetric topology control in Adhoc networks. MobiHoc 2003; 141-152.
Liu J, Li B. Mobile Grid: capacity-aware topology control in mobile Adhoc networks. ICCCN 2002; 570-574.
Seol JY, Kim SL. Node mobility and capacity in wireless controllable Adhoc networks. Elsevier Journal of Computer Communications 2012; 35(11): 1345-1354.
Roh HT, Dai F. Joint mission and communication aware mo- bility control in mobile Adhoc networks, 10th IEEE International Symposium on Modeling and Optimization in Mobile, Adhoc and Wireless Networks (WiOpt), Germany. 2012; 124-129.
Le DV, Oh H, Yoon S. A Controllable Mobility (CM)- aided Routing protocol using Mobility Prediction in MANETs, IEEE International Conference on ICT Convergence (ICTC). 2013; 427-428.
Sliwa B, Behnke D, Ide C et al. B.A.T. Mobile: Leveraging Mobility Control Knowledge for Efficient Routing in Mobile Robotic Networks, IEEE Globecom Workshops (GC Wkshps). 2016; 1-6.
Chatterjee M, Das SK, Turgut D. An on-demand Weighted Clustering Algorithm (WCA) for Adhoc networks. IEEE Global Telecommunications Conference. 1697-1701.
Anagnostopoulos T, Anagnostopoulos C, Hadjiefthymiades S et al. Predicting the Location of Mobile Users: A Machine Learning Approach, in Proceedings of the ACM. International conference on Pervasive services. 2009; 65-72.
Huang G, Zhu Q, Siew C. Extreme learning machine: theory and applications, Neurocomputing. Elsevier 2006; 70(1&3): 489-501.
Liu J, Li B. MobileGrid: capacity-aware topology control in mobile Adhoc networks. ICCCN 2002; 570-574.
Rodoplu V, Meng TH. Minimum energy mobile wireless networks. IEEE Journal of Selected Areas in Communications 1999; 17: 1333-1344.
Cartigny J, Simplot D, Stojmenovic I. Localized minimum energy broadcasting in Adhoc networks. IEEE INFOCOM, 2003; 2210-2217.
Seddigh M, Solano J, Stojmenovic I. RNGand internal node based broadcasting in one-to-one wireless networks. ACM Mobile Computing and Communications Review 2001; 5: 37-44.
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