Abstract
Secure communication network is the demand of today’s transportation due to excess number of vehicles and limitation to the existing communication protocol. This Paper discusses the secure communication protocol between the vehicles and the detection and prevention of the Sybil attack. Fake node request, multiple routing entries these are the common example of Sybil attack which can be detected and prevented using existing proposed method. Virtual nodes are created and messages are sent to nodes. The proposed method detects the identity of received message and number of fake entries of that particular massage in the routing buffer. If messages are validated then communication is possible otherwise request is terminated. Results showed that the existing proposed method is able to detect and prevent Sybil attack by maintaining single node identity.
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References
Haque MM, Misic J, Misic V et al (2013) Vehicular network security. In: encyclopedia of wireless and mobile communications, 2nd edn
Gadkari MY, Sambre NB (2012) VANET: routing protocols, security issues and simulation tools. J IOSR J Comput Eng (IOSRJCE)
Fonseca E, Festag A (2006) A survey of existing approaches for secure ad hoc routing and their applicability to VANETS. J NEC Netw Lab, Version 11:1–28
Bai R, Singhal M (2006) DOA: DSR over AODV routing for mobile ad hoc networks. IEEE
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Sawant, S.M., Shinde, S.M., Shinde, J.S. (2021). Novel Secure Routing Protocol for Detecting and Presenting Sybil Attack. In: Pawar, P.M., Balasubramaniam, R., Ronge, B.P., Salunkhe, S.B., Vibhute, A.S., Melinamath, B. (eds) Techno-Societal 2020. Springer, Cham. https://doi.org/10.1007/978-3-030-69921-5_40
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DOI: https://doi.org/10.1007/978-3-030-69921-5_40
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Online ISBN: 978-3-030-69921-5
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