Abstract
Mobile ad hoc networks largely suffer from the constraint of battery power. A node continuously senses the information about the network by sending the HELLO packet and receiving the Acknowledgment packet. It consumes huge energy that affects each node based on battery power. This article proposed an optimized HELLO devoid version of the FAIR protocol that intelligently reduces the requirement of continuous HELLO packets, and as a result, provides huge energy preservation that leads to significant performance improvement in terms of energy consumption, lifetime of network, end-to-end delay, and network throughput.
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References
Chlamtac I, Conti M, Liu JJ-N (2003) Mobile ad hoc networking: imperatives and challenges. Ad hoc Netw 1(1):13–64
Boukerche A (2004) Performance evaluation of routing protocols for ad hoc wireless networks. Mob Netw Appl 9(4):333–342
Basagni S, Conti M, Giordano S, Stojmenovic I (2013) Mobile ad hoc networking: cutting edge directions, vol 35. Wiley
Moussaoui A, Boukeream A (2015) A survey of routing protocols based on link-stability in mobile ad hoc networks. J Netw Comput Appl 47:1–10
Quy VK, Ban NT, Nam VH, Tuan DM, Han ND (2019) Survey of recent routing metrics and protocols for mobile ad-hoc networks. J Commun 14(2):110–120
Chawda K, Gorana D (2015) A survey of energy efficient routing protocol in manet. In: 2015 2nd International conference on electronics and communication systems (ICECS). IEEE, pp 953–957
Sufian A, Banerjee A, Dutta P (Apr 2019) Energy and velocity based tree multicast routing in mobile ad-hoc networks. Wirel Pers Commun 107:2191–2209
Banerjee A, Dutta P (2010) Fuzzy-controlled adaptive and intelligent route selection (fair) in ad hoc networks. Eur J Sci Res 45(3):367–382
Banerjee A, Sufian A, Dutta P (2019) Minus hello: Minus hello embedded protocols for energy preservation in mobile ad-hoc networks. arXiv:1910.11916
Perkins CE, Royer EM (1999) Ad-hoc on-demand distance vector routing. In: Proceedings WMCSA’99. Second IEEE workshop on mobile computing systems and applications. IEEE, pp 90–100
Toh CK (2001) Maximum battery life routing to support ubiquitous mobile computing in wireless ad hoc networks. IEEE Commun Mag 138–145
Patel DN, Patel SB, Kothadiya HR, Jethwa PD, Jhaveri RH (2014) A survey of reactive routing protocols in manet. In: International conference on information communication and embedded systems (ICICES2014). IEEE, pp 1–6
Xiao H, Ibrahim DM, Christianson B (2014) Energy consumption in mobile ad hoc networks. In: 2014 IEEE Wireless communications and networking conference (WCNC). IEEE, pp 2599–2604
Bettstetter C, Resta G, Santi P (2003) The node distribution of the random waypoint mobility model for wireless ad hoc networks. IEEE Trans Mob Comput 2(3):257–269
Issariyakul T, Hossain E (2010) Introduction to Network Simulator NS2, 1st edn. Springer Publishing Company, Incorporated
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Sufian, A., Banerjee, A., Dutta, P. (2021). HFAIR: Hello Devoid Optimized Version of FAIR Protocol for Mobile Ad hoc Networks. In: Bhattacharyya, S., Dutta, P., Datta, K. (eds) Intelligence Enabled Research. Advances in Intelligent Systems and Computing, vol 1279. Springer, Singapore. https://doi.org/10.1007/978-981-15-9290-4_5
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DOI: https://doi.org/10.1007/978-981-15-9290-4_5
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