Multicast is a crucial routine operation for
vehicular networks, which underpins important functions such as message
dissemination and group coordination. As vehicles may distribute over a vast
area, the number of vehicles in a given region can be limited which results in
sparse node distribution in part of the vehicular network. This poses several
great challenges for efficient multicast, such as network disconnection, scarce
communication opportunities and mobility uncertainty. Existing multicast schemes
proposed for vehicular networks typically maintain a forwarding structure
assuming the vehicles have a high density and move at low speed while these
assumptions are often invalid in a practical vehicular network. As more and
more vehicles are equipped with GPS enabled navigation systems, the
trajectories of vehicles are becoming increasingly available. In this work, we
propose an approach called TMC to exploit vehicle trajectories for efficient
multicast in vehicular networks. The novelty of TMC includes a message
forwarding metric that characterizes the capability of a vehicle to forward a
given message to destination nodes, and a method of predicting the chance of
inter-vehicle encounter between two vehicles based only on their trajectories
without accurate timing information. TMC is designed to be a distributed
approach. Vehicles make message forwarding decisions based on vehicle
trajectories shared through inter-vehicle exchanges without the need of central
information management. We have performed extensive simulations based on real
vehicular GPS traces and compared our proposed TMC scheme with other existing
approaches. The performance results demonstrate that our approach can achieve a
delivery ratio close to that of the flooding-based approach while the cost is
reduced by over 80%.
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