Link Delay Modeling for Two-Way Traffic Road Segment in Vehicular Networks
@inproceedings{Lee2015LinkDM,
title={Link Delay Modeling for Two-Way Traffic Road Segment in Vehicular Networks},
author={Jinho Lee and Jaehoon Paul Jeong and David Hung-Chang Du},
booktitle={IOV},
year={2015}
}This paper proposes expected link delay i.e., data delivery delay on a two-way road segment for carry-and-forward data delivery schemes in vehicular networks. Recently, a lot of vehicles are able to communicate with each other by dedicate short-range communications DSRC for vehicular networking. In the near future, more vehicles will be equipped with DSRC devices because of governmental policies for driving safety. In this paper, we derive link delay model on a two-way road segment. This link…
One Citation
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References
SHOWING 1-10 OF 10 REFERENCES
The insights of message delivery delay in VANETs with a bidirectional traffic model
- Computer ScienceJ. Netw. Comput. Appl.
- 2013
Trajectory-Based Data Forwarding for Light-Traffic Vehicular Ad Hoc Networks
- Computer ScienceIEEE Transactions on Parallel and Distributed Systems
- 2011
This paper presents the first attempt to effectively utilize vehicles' trajectory information in a privacy-preserving manner and outperforms the existing scheme in terms of both the data delivery delay and packet delivery ratio.
Trajectory-Based Statistical Forwarding for Multihop Infrastructure-to-Vehicle Data Delivery
- Computer ScienceIEEE Transactions on Mobile Computing
- 2012
Through theoretical analysis and extensive simulation, it is shown that the proposed Trajectory-based Statistical Forwarding scheme provides an efficient data forwarding under a variety of vehicular traffic conditions.
TMA: Trajectory-based Multi-Anycast forwarding for efficient multicast data delivery in vehicular networks
- Computer ScienceComput. Networks
- 2013
TR 11-013 TMA : Trajectory-based Multi-Anycast for Multicast Data Delivery in Vehicular Networks
- Computer Science
- 2011
Through theoretical analysis and extensive simulation, it is shown that the TMA Forwarding design provides an efficient multicast for moving vehicles under a variety of vehicular traffic conditions.
The Status of Vehicle-to-Vehicle Communications as a Means of Improving Crash Prevention Performance
- Engineering
- 2005
This paper provides the status of National Highway Traffic Safety Administration (NHTSA) sponsored research on vehicle-to-vehicle and vehicle-to-roadside communications as a means of improving crash…
Audi Tests Driverless-Car Technology at 190MPH
- Audi Tests Driverless-Car Technology at 190MPH
- 2014
Ford chief says Mass-Market autonomous vehicle is priority
- Ford chief says Mass-Market autonomous vehicle is priority
- 2015
Federal Motor Vehicle Safety Standards: Vehicle-to-Vehicle (V2V) Communications
- Federal Motor Vehicle Safety Standards: Vehicle-to-Vehicle (V2V) Communications
Mercedes' futuristic view: Autonomy meets connectivity
- Mercedes' futuristic view: Autonomy meets connectivity
- 2015