International Journal of Distributed Computing and Technology

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Mobile ad hoc network (MANETs) are networks which routing is based on multi-hop routing from a source to a destination node or nodes. These networks have quite many constraints because of uncertainty of radio interface and its limitations. For instance, in available bandwidth. There are various applicable protocols for ad hoc networks, but one confusing problem is the vast number of separate protocols. Each of these protocols is designed to perform its task as well as it’s possible according to its design criteria. In the past years, the wireless networking community designed numbers of new routing protocols which are based on scenarios of this design space. The main aim of this seminar report is to create a broad sense and knowledge of the ad hoc routing protocols, and to survey and compare representative examples for each category of these protocols. So that we can use routing protocols for the number of designs and we strive to uncover the resource limitations. This review is based on reactive protocols. But here the problem is high routing protocols overhead in ad hoc networks. So, we driven this issue, propose the reactive routing protocols. Reactive routing is fine matched for a large scale with moderate or low mobility. This manuscript provides an overview of reactive protocols. (e.g., AODV, DSR, TORA, LAR, etc.).

D.B. Johnson, D.A. Maltz, J. Broch. DSR: The dynamic source routing protocol for multi-hop wireless ad hoc networks, Ad Hoc Netw. 2001; 5: 139– 72p. 2. V.D. Park, M.S. Corson. A highly adaptive distributed routing algorithm for mobile wireless networks. InINFOCOM'97, In: Sixteenth Annual Joint Conference of the IEEE Computer and Communications Societies. Driving the Information Revolution., Proceedings IEEE. 1997 Apr 7 Vol. 3, 1405–13p. 3. C.K. Toh. Associativity-based routing for ad hoc mobile networks, Wirel Person Commun. 1997; 4(2): 103–39p. 4. R. Dube, C.D. Rais, K.Y. Wang, S.K. Tripathi. Signal stability-based adaptive routing (SSA) for ad hoc mobile networks, IEEE Person Commun. 1997; 4(1): 36–45p. 5. T. Goff, N.B. Abu-Ghazaleh, D.S. Phatak, R. Kahvecioglu. Preemptive routing in ad hoc networks, In: Proceedings of the 7th Annual International Conference on Mobile Computing and Networking. 2001; 43– 52p. 6. Q. Xue, A. Ganz. Ad hoc QoS ondemand routing (AQOR) in mobile ad hoc networks, J Parall Distrib Comput. 2003; 63(2): 154–65p. 7. M. Gunes, U. Sorges, I. Bouazizi. ARA-the ant-colony based routing algorithm for MANETs. In: Parallel Processing Workshops, 2002. Proceedings. International Conference. IEEE, 2002, 79–85p. 8. J. Raju, J.J. Garcia-Luna-Aceves. A new approach to on-demand loop-free multipath routing. In: Computer Communications and Networks, 1999. Proceedings. Eight International Conference. IEEE, 1999, 522–7p. 9. S.J. Lee, M. Gerla. Split multipath routing with maximally disjoint paths in ad hoc networks, In: Communications, 2001. ICC 2001. IEEE International Conference. IEEE, Vol. 10, 2001, 3201–5p. 10. J. Boice, J.J. Garcia-Luna-Aceves, K. Obraczka. Combining on-demand and opportunistic routing for intermittently connected networks, Ad Hoc Network. 2009; 7(1): 201–18p. 11. L. Rosati, M. Berioli, G. Reali. On ant routing algorithms in ad hoc networks

with critical connectivity, Ad Hoc Network. 2008; 6(6): 827–59p. 12. Z. Cheng, W.B. Heinzelman. Discovering long lifetime routes in mobile ad hoc networks, Ad Hoc Network. 2008; 6(5): 661–74p. 13. J.J. Garcia-Luna-Aceves, M. Mosko, C.E. Perkins. A new approach to ondemand loop-free routing in networks using sequence numbers, Comput Network. 2006; 50(10): 1599–615p. 14. D.B. Johnson, D.A. Maltz, J. Broch. DSR: the dynamic source routing protocol for multi-hop wireless ad hoc networks, Ad Hoc Network. 2001; 5: 139–72p.