Nothing Special   »   [go: up one dir, main page]

skip to main content
10.5555/1834182.1834194guideproceedingsArticle/Chapter ViewAbstractPublication PagesConference Proceedingsacm-pubtype
Article

CORNER: a realistic urban propagation model for VANET

Published: 03 February 2010 Publication History

Abstract

Recent advances in portable technologies suggest that ad hoc networks will finally move out from the research and military harbors to the commercial world. In particular, vehicular safety and entertainment applications are mature for the market. Several major manufacturer are considering vehicular communications as an opportunity to increase the profitability and marketability of their vehicles. In this phase, simulations are essential to evaluate the performance of protocols and applications large urban Ad Hoc and Vehicular networks. This paper tackles on the long overdue issue of an high fidelity propagation model for urban ad hoc networks. In particular, we propose CORNER a low computational cost yet accurate urban propagation prediction technique for ad hoc networks in urban scenarios. We also provide validation of the model through a side-to-side comparison of real experiments and simulations.

References

[1]
M. Ferreira, H. Conceição, R. Fernandes, and O. Tonguz, "Stereoscopic aerial photography: An alternative to model-based urban mobility approache," in Sixth ACM International Workshop on VehiculAr Inter-NETworking (VANET), September 2009.
[2]
A. Rowstron and G. Pau, "Characteristics of a vehicular network," University of California Los Angeles, Computer Science Department, Tech. Rep. 09-0017, July 2009.
[3]
Scalable-Networks, "Qualnet network simulator," http://www. scalable-networks.com.
[4]
Q. Sun, S. Y. Tan, and K. C. Teh, "Analytical formulae for path loss prediction in urban street grid microcellular environments," IEEE Transactions on Vehicular Technology, vol. 54, no. 4, pp. 1251-1258, July 2005.
[5]
S. Bohacek, V. Sridhara, G. Singh, and A. Ilic, "The udel models - manet mobility and path loss in an urban/suburban environment," University of Delaware, Electrical Engineering Department, Tech. Rep., 2004.
[6]
V. Sridhara and S. Bohacek, "Realistic propagation simulation of urban mesh networks," Computer Networks, vol. 51, no. 12, pp. 3392-3412, 2007.
[7]
The madwifi project. {Online}. Available: http://madwifi-project.org/
[8]
Google earth. {Online}. Available: http://earth.google.com/

Cited By

View all
  • (2018)VANETs' research over the past decadeACM SIGCOMM Computer Communication Review10.1145/3213232.321323748:2(31-39)Online publication date: 1-May-2018
  • (2016)Simulating Wireless Links Within a Dynamic EnvironmentProceedings of the 6th ACM Symposium on Development and Analysis of Intelligent Vehicular Networks and Applications10.1145/2989275.2989291(115-122)Online publication date: 13-Nov-2016
  • (2015)How Close are We to Realizing a Pragmatic VANET Solution? A Meta-SurveyACM Computing Surveys10.1145/281755248:2(1-40)Online publication date: 3-Nov-2015
  • Show More Cited By
  1. CORNER: a realistic urban propagation model for VANET

    Recommendations

    Comments

    Please enable JavaScript to view thecomments powered by Disqus.

    Information & Contributors

    Information

    Published In

    cover image Guide Proceedings
    WONS'10: Proceedings of the 7th international conference on Wireless on-demand network systems and services
    February 2010
    183 pages
    ISBN:9781424460595

    Publisher

    IEEE Press

    Publication History

    Published: 03 February 2010

    Author Tags

    1. IEEE 802.11
    2. propagation
    3. vehicular networks

    Qualifiers

    • Article

    Contributors

    Other Metrics

    Bibliometrics & Citations

    Bibliometrics

    Article Metrics

    • Downloads (Last 12 months)0
    • Downloads (Last 6 weeks)0
    Reflects downloads up to 06 Jan 2025

    Other Metrics

    Citations

    Cited By

    View all
    • (2018)VANETs' research over the past decadeACM SIGCOMM Computer Communication Review10.1145/3213232.321323748:2(31-39)Online publication date: 1-May-2018
    • (2016)Simulating Wireless Links Within a Dynamic EnvironmentProceedings of the 6th ACM Symposium on Development and Analysis of Intelligent Vehicular Networks and Applications10.1145/2989275.2989291(115-122)Online publication date: 13-Nov-2016
    • (2015)How Close are We to Realizing a Pragmatic VANET Solution? A Meta-SurveyACM Computing Surveys10.1145/281755248:2(1-40)Online publication date: 3-Nov-2015
    • (2015)A fast, reliable and lightweight distributed dissemination protocol for safety messages in Urban Vehicular NetworksAd Hoc Networks10.1016/j.adhoc.2014.11.01627:C(26-43)Online publication date: 1-Apr-2015
    • (2012)Improving the accuracy of environment-specific vehicular channel modelingProceedings of the seventh ACM international workshop on Wireless network testbeds, experimental evaluation and characterization10.1145/2348688.2348699(43-50)Online publication date: 22-Aug-2012
    • (2012)Comparing apples and oranges?Proceedings of the ninth ACM international workshop on Vehicular inter-networking, systems, and applications10.1145/2307888.2307895(27-32)Online publication date: 25-Jun-2012
    • (2011)Real-world measurements of non-line-of-sight reception quality for 5.9GHz IEEE 802.11p at intersectionsProceedings of the Third international conference on Communication technologies for vehicles10.5555/1987310.1987330(189-202)Online publication date: 23-Mar-2011
    • (2011)Analyzing different levels of geographic context awareness in agent ferrying over VANETsProceedings of the 2011 ACM Symposium on Applied Computing10.1145/1982185.1982275(413-418)Online publication date: 21-Mar-2011
    • (2011)A study of the discovery process in 802.11 networksACM SIGMOBILE Mobile Computing and Communications Review10.1145/1978622.197862615:1(25-36)Online publication date: 7-Mar-2011
    • (2010)Geo-aware handover of mission agents using opportunistic communication in VANETProceedings of the Third conference on Smart Spaces and next generation wired, and 10th international conference on Wireless networking10.5555/1885821.1885860(365-376)Online publication date: 23-Aug-2010

    View Options

    View options

    Media

    Figures

    Other

    Tables

    Share

    Share

    Share this Publication link

    Share on social media