Theoretical analysis of beaconless geocast protocols in 1D

Publication date

2018

Authors

Gudmundsson, Joachim
Kostitsyna, IrinaISNI 0000000524014893
Löffler, MaartenISNI 000000039666142X
Muller, TobiasISNI 0000000079904555
Sacristán, Vera
Silveira, R.I.

Editors

Nebel , Markus
Wagner, Stephan

Advisors

Supervisors

Document Type

Part of book
Open Access logo

License

Abstract

Beaconless geocast protocols are routing protocols used to send messages in mobile ad-hoc wireless networks, in which the only information available to each node is its own location. Messages get routed in a distributed manner: each node uses local decision rules based on the message source and destination, and its own location. In this paper we analyze six different beaconless geocast protocols, focusing on two relevant 1D scenarios. The selection of protocols reflects the most relevant types of protocols proposed in the literature, including those evaluated in previous computer simulations. We present a formal and structured analysis of the maximum number of messages that a node can receive, for each protocol, in each of the two scenarios. This is a measure of the network load incurred by each protocol. Our analysis, that for some of the protocols requires an involved probabilistic analysis, confirms behaviors that had been observed only through simulations before.

Keywords

CG, GIS

Citation

Gudmundsson, J, Kostitsyna, I, Löffler, M, Müller, T, Sacristán, V & Silveira, R I 2018, Theoretical analysis of beaconless geocast protocols in 1D. in M Nebel & S Wagner (eds), 2018 Proceedings of the Meeting on Analytic Algorithmics and Combinatorics (ANALCO). SIAM, pp. 62-76. https://doi.org/10.1137/1.9781611975062.7