Abstract
This paper researches various routing protocols, problems and necessities comparatively in MANET routing and layout concerns which include classifications primarily based on layers and other aspects. The layout and implementation of PUMA is a declarative constraint-fixing platform for coverage-based total routing and channel selection in multi-radio wi-fi mesh networks. PUMA integrates a high-performance constraint solver with a declarative networking engine. PUMA achieves a high data delivery ratio with very restricted manage overhead, which is almost constant in a large range of community situations. PUMA uses an unattached manipulate packet format for querying the receivers while ODMR has separate manage packets for querying exclusive manipulate information. The outcomes from a huge range of eventualities of varying mobility, organization members, a wide variety of senders, traffic load, and a wide variety of multicast organizations show that PUMA attains higher packet delivery ratios than ODMRP and MAODV, whilst incurring some distance less manipulate overhead.
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References
Nagaratna M, Raghavendra Rao C, Kamakshi Prasad V (2011) Node disjoint split multipath protocol for unified multicasting through announcements (NDSM-PUMA). In: Proceedings of international conference on computer science and information technology CSIT-2011, Bangalore, India, pp 373–380
Agarwal DP, Zeng QA (2005) Introduction to wireless and mobile systems. Brooks/Cole
Anderson RGT, Bershad B, Wetherall D (2000) A system architecture for pervasive computing. In: Proceedings of 9th ACM SIGOPS European workshop, Kolding, Denmark, pp 177–182
Chlamtac I, Redi J (1998) Mobile computing: challenges and opportunities. In: Ralston A, Reilly E (eds). International Thomson Publishing
Verma AK, Dave M, Joshi RC (2007) Secure routing in mobile networks: a review. Int J Syst, Cybern Inf (IJCSI). ISSN 0973-4864
Perrig A, Canetti R, Tygar JD, Song D (2000) Efficient authentication and signing of multicast streams over lossy channels. In: Proceedings of IEEE symposium on security and privacy
Corson S, Macker J (1999) Mobile ad hoc networking (MANET): routing protocol performance issues and evaluation considerations, RFC 2501
Wang Z, Liu L, Zhou MC (2004) Protocols and applications of ad-hoc robot wireless communication networks: an overview. Int J Intell Control Syst 10(4):296–303, December 2005; Architectures and protocols. Prentice-Hall
Perkins CE (2008) Ad hoc networking. Pearson Education Inc
Royer EM, Perkins CE (1999) Multicast operation of the ad-hoc on-demand distance vector routing protocol. In: Proceedings of the 5th ACM/IEEE international conference on mobile computing and networking, Mobicom’99, pp 207–218
Jetcheva JG, Johnson DB (2001) Adaptive demand-driven multicast routing in multi-hop wireless ad hoc networks. In: Proceedings of the 2nd ACM international symposium on mobile ad hoc networking and computing (MobiHoc’01), pp 33–44
Vaishampayan R, Garcia-Luna-Aceves JJ (2004) Protocol for unified multicasting through announcements (PUMA). In: Proceedings of the IEEE international conference on mobile ad-hoc and sensor systems (MASS’04)
Dahill B, Levine B, Belding Royer E, Shields C (2001) A secure routing protocol for ad hoc networks. University of Massachusetts, Technical Report, pp 01–37
Toh CK (2002) Ad Hoc mobile wireless networks: protocols and systems. Prentice-Hall, Englewood Cliffs, NJ, USA
Paul S (1989) Multicasting on the internet and its applications. Kluwer Academic Publishers, Norwell, Mass, USA, 1998; Stojmenovi´c I (ed) Handbook of wireless networks and mobile computing. Wiley, New York, NY, USA, 2002
Badarneh OS, Kadoch M (2009) Multicast routing protocols in mobile ad hoc networks: a comparative survey and taxonomy. Hindawi Publishing Corporation EURASIP J Wirel Communications Netw, Article ID 764047. https://doi.org/10.1155/2009/764047
Junhai L, Liu X, Danxia Y (2008) Research on multicast routing protocols for mobile ad-hoc networks. Comput Netw 52(5):988–997
Chiang CC, Gerla M, Zhang L (1998) Adaptive shared tree multicast in mobile wireless networks. In: Proceedings of the IEEE global telecommunications conference (GLOBECOM’98), vol 3, pp 1817–1822
Shen CC, Jaikaeo C (2005) Ad hoc multicast routing algorithm with swarm intelligence. Mob Netw Appl 10(1):47–59
Park S, Park D (2004) Adaptive core multicast routing protocol. Wirel Netw 10(1):53–60
Toh CK, Guichal G, Bunchua S (2000) ABAM: on-demand associativity-based multicast routing for ad hoc mobile networks. In: Proceedings of the IEEE vehicular technology conference (VTC’00), vol 3, pp 987–993
Ozaki T, Kim JB, Suda T (2001) Bandwidth-efficient multicast routing for multihop, ad-hoc wireless networks. In: Proceedings of the 20th annual joint conference of the IEEE computer and communications societies (INFOCOM’01), vol 2, pp 1182–1191
Pompili D, Vittucci M (2006) PPMA, a probabilistic predictive multicast algorithm for ad hoc networks. Ad Hoc Netw 4(6):724–748
Xie J, Talpade RR, McAuley A, Liu M (2002) AMRoute: ad hoc multicast routing protocol. Mob Netw Appl 7, 132(6), 429–439
Ge M, Krishnamurthy SV, Faloutsos M (2006) Application versus network layer multicasting in ad hoc networks: the ALMA routing protocol. Ad Hoc Netw 4(2):283–300
Ye Z, Krishnamurthy SV and Tripathi SK (2003) A frame work for reliable routing in mobile ad hoc networks. In: Proceedings of the 22nd annual joint conference of the IEEE computer and communications societies (INFOCOM), vol 1, pp 270–80
Mueller S, Ghosal D (2005) Analysis of a distributed algorithm to determine multiple routes with path diversity in ad hoc networks. In: Proceedings of the third international symposium on modeling and optimization in mobile, ad hoc and wireless networks(WIOPT), pp 277–285
An H-Y, Zhong L, Lu X-C, Peng W (2005) A cluster-based multipath dynamic source routing in MANET. In: Proceedings of the IEEE international conference on wireless and mobile computing, networking and communications (WIMOB), vol 3, pp 369–376
Wisitpongphan N, Tonguz OK (2003) Disjoint multipath source routing in ad hoc networks: transport capacity. In: Proceedings of the IEEE 58th vehicular technology conference (VTC), vol 4, p 2207–2211
Bagrodia R, Gerla M, Hsu J, Su W, Lee SJ (2000) A performance comparison study of ad hoc wireless multicast protocols. In: Proceedings of the 19th ComSoc IEEE Conference, pp 565–574
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Harikrishna, T., Subramanyam, A. (2019). Evaluation of Selected Tree- and Mesh-Based Routing Protocols. In: Kumar, A., Mozar, S. (eds) ICCCE 2018. ICCCE 2018. Lecture Notes in Electrical Engineering, vol 500. Springer, Singapore. https://doi.org/10.1007/978-981-13-0212-1_45
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