Interference-Aware Geocasting for VANET
(2012) VANET from Theory to Practice- Abstract
- With the introduction of standards such as DSRC
and WAVE, vehicular ad hoc networks (VANET) are being considered
as candidates to improve road safety. Safety applications
developed on top of VANET enable vehicle and driver improved
awareness of the road situation through vehicles sharing their
status and knowledge of the road conditions. In order for these
systems to operate, they depend on reliable communication. To
overcome fading, shadowing and other effects that cause packet
loss, such applications commonly use retransmission schemes to
improve packet delivery. However, the wireless channels used for
these applications are bandwidth constrained,... (More) - With the introduction of standards such as DSRC
and WAVE, vehicular ad hoc networks (VANET) are being considered
as candidates to improve road safety. Safety applications
developed on top of VANET enable vehicle and driver improved
awareness of the road situation through vehicles sharing their
status and knowledge of the road conditions. In order for these
systems to operate, they depend on reliable communication. To
overcome fading, shadowing and other effects that cause packet
loss, such applications commonly use retransmission schemes to
improve packet delivery. However, the wireless channels used for
these applications are bandwidth constrained, and retransmission
can cause interference which in turn will degrade the reliability
of the communication channel. Therefore, it is necessary to find
a strategy that balances retransmission with channel occupancy
for optimal reliability.
In this paper, we present a cooperative retransmission algorithm
that overcomes shadowing caused by blocking objects such
as heavy vehicles in order to combat the resulting unreliability,
whilst controlling the interference caused by retransmissions.
The proposed algorithm weighs up the additional area a node
can cover, with the amount of interference a retransmission by
the same node would cause. We evaluate the performance of
the algorithm in urban scenarios using the NS-3 simulator, and
find that the proposed algorithm is effective in overcoming the
negative effects of shadows caused by blocking objects. (Less)
Please use this url to cite or link to this publication:
https://lup.lub.lu.se/record/3128362
- author
- Tse, Quincy and Landfeldt, Björn LU
- organization
- publishing date
- 2012
- type
- Chapter in Book/Report/Conference proceeding
- publication status
- published
- subject
- host publication
- WoWMoM
- editor
- Danoy, Gregoire ; Ruiz, Patricia ; Schleich, Julien and Seredynski, Marcin
- publisher
- IEEE - Institute of Electrical and Electronics Engineers Inc.
- conference name
- VANET from Theory to Practice
- conference dates
- 2012-06-25
- external identifiers
-
- scopus:84866411759
- language
- English
- LU publication?
- yes
- id
- 00d4da3d-e580-42d8-81cc-6a97946de629 (old id 3128362)
- alternative location
- http://www.nicta.com.au/pub?doc=5680
- date added to LUP
- 2016-04-04 12:07:28
- date last changed
- 2022-01-29 22:58:02
@inproceedings{00d4da3d-e580-42d8-81cc-6a97946de629, abstract = {{With the introduction of standards such as DSRC<br/><br> and WAVE, vehicular ad hoc networks (VANET) are being considered<br/><br> as candidates to improve road safety. Safety applications<br/><br> developed on top of VANET enable vehicle and driver improved<br/><br> awareness of the road situation through vehicles sharing their<br/><br> status and knowledge of the road conditions. In order for these<br/><br> systems to operate, they depend on reliable communication. To<br/><br> overcome fading, shadowing and other effects that cause packet<br/><br> loss, such applications commonly use retransmission schemes to<br/><br> improve packet delivery. However, the wireless channels used for<br/><br> these applications are bandwidth constrained, and retransmission<br/><br> can cause interference which in turn will degrade the reliability<br/><br> of the communication channel. Therefore, it is necessary to find<br/><br> a strategy that balances retransmission with channel occupancy<br/><br> for optimal reliability.<br/><br> In this paper, we present a cooperative retransmission algorithm<br/><br> that overcomes shadowing caused by blocking objects such<br/><br> as heavy vehicles in order to combat the resulting unreliability,<br/><br> whilst controlling the interference caused by retransmissions.<br/><br> The proposed algorithm weighs up the additional area a node<br/><br> can cover, with the amount of interference a retransmission by<br/><br> the same node would cause. We evaluate the performance of<br/><br> the algorithm in urban scenarios using the NS-3 simulator, and<br/><br> find that the proposed algorithm is effective in overcoming the<br/><br> negative effects of shadows caused by blocking objects.}}, author = {{Tse, Quincy and Landfeldt, Björn}}, booktitle = {{WoWMoM}}, editor = {{Danoy, Gregoire and Ruiz, Patricia and Schleich, Julien and Seredynski, Marcin}}, language = {{eng}}, publisher = {{IEEE - Institute of Electrical and Electronics Engineers Inc.}}, title = {{Interference-Aware Geocasting for VANET}}, url = {{http://www.nicta.com.au/pub?doc=5680}}, year = {{2012}}, }