Architecture and evaluation of a unified V2V and V2I communication system based on cellular networks

@article{Santa2008ArchitectureAE,
  title={Architecture and evaluation of a unified V2V and V2I communication system based on cellular networks},
  author={Jos{\'e} Santa and Antonio F. G{\'o}mez-Skarmeta and Marc S{\'a}nchez Artigas},
  journal={Comput. Commun.},
  year={2008},
  volume={31},
  pages={2850-2861}
}

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References

SHOWING 1-10 OF 30 REFERENCES

A Survey of Inter-Vehicle Communication

It is advocated from the perspective that ad hoc routing protocols and group communication primitives migrated from wired networks might not be an efficient way to support the envisioned applications, and that new coordination algorithms directly based on MAC could be designed for this purpose.

Vehicle-to-vehicle wireless communication protocols for enhancing highway traffic safety

An overview of highway cooperative collision avoidance (CCA), which is an emerging vehicular safety application using the IEEE- and ASTM-adopted Dedicated Short Range Communication (DSRC) standard, and an example of the safety performance of CCA using simulated vehicle crash experiments.

Extensive Experimental Characterization of Communications in Vehicular Ad Hoc Networks within Different Environments

Extensive experimental measurements of vehicle-to-vehicle communication on several typical scenarios in order to study the critical factors that affect multimedia applications over an IEEE 802.11 VANET prove that in addition to short message transfer, the deployment of multimedia applications is also feasible.

Vehicular-Collision Avoidance Support System (VCASS) by Inter-Vehicle Communications for Advanced ITS

The objective of this paper is to develop Vehicular Collision Avoidance Support System (VCASS), and to show its performance by various experiments with two real vehicles to verify the validity and the effectiveness of VCASS.

A Comparative Study of Data Dissemination Models for VANETs

A formal model of data dissemination in VANETs is presented and it is shown that dissemination using only vehicles in the opposite direction increases the data dissemination performance significantly.

Implementation and evaluation of message delegation middleware for ITS application

The proposed middleware with a message delegation system that realizes reliable message delivery based on the information of the network status of the DSRC network is described and the results of the middleware through evaluation are shown.

Wireless LAN access network system for moving vehicles

This paper proposes a WLAN access network system for high-speed moving vehicles that achieves a short handover time and no packet loss during handover, and proposes a daisy-chain network architecture that reduces construction costs to enable the wide deployment of many Wlan access points.

Challenges of intervehicle ad hoc networks

This paper elicits differences in IVC networks exhibit characteristics that are dramatically different from many generic MANETs through simulations and mathematical models and explores the impact of the differences on the IVC communication architecture, including important security implications.

Internet on the Road via Inter-Vehicle Communications

An overview of the FleetNet project is provided: FleetNet applications and services are described as well as FleetNet’s technical challenges together with the current design choices.

A Multiplatform OSGi Based Architecture for Developing Road Vehicle Services

An extensible architecture useful in the software development of road services for vehicles is shown, based on the division of services in different levels of abstraction, according to the underlying hardware, placed over a general purpose computer.