Vehicle-to-vehicle channel modeling and measurements: Recent advances and future challenges

IEEE Communications Magazine

Volumn 47, Issue 11, 2009, Pages 96-103

  Wang, Chang Xiang ^a   Cheng, Xiang ^a   Laurenson, David ^b  

^a HERIOT WATT UNIVERSITY   (United Kingdom)

^b UNIVERSITY OF EDINBURGH   (United Kingdom)

Author keywords

[No Author keywords available]

Indexed keywords

CELLULAR NETWORK; CHANNEL MEASUREMENTS; CHANNEL MODELING; DEDICATED SHORT RANGE COMMUNICATION; FUTURE CHALLENGES; INTELLIGENT TRANSPORTATION SYSTEMS; NEW APPLICATIONS; V2V COMMUNICATIONS; VEHICLE TO VEHICLES; VEHICLE-TO-VEHICLE COMMUNICATION; WIRELESS MOBILE AD-HOC NETWORKS;

CELLULAR NEURAL NETWORKS; CELLULAR TELEPHONE SYSTEMS; COMMUNICATION SYSTEMS; INTELLIGENT VEHICLE HIGHWAY SYSTEMS; MOBILE AD HOC NETWORKS; MOBILE TELECOMMUNICATION SYSTEMS; VEHICLE LOCATING SYSTEMS; VEHICLES; WIRELESS TELECOMMUNICATION SYSTEMS;

AD HOC NETWORKS;

EID: 70449512388     PISSN: 01636804     EISSN: None     Source Type: Journal    
DOI: 10.1109/MCOM.2009.5307472     Document Type: Article

References (15)

1. W. Chen and S. Cai, "Ad Hoc Peer-To-Peer Network Architecture for Vehicle Safety Communications," IEEE Commun. Mag., vol.43, no.4, Apr. 2005, pp. 100-107
2. T. Kosch and W. Franz, "Technical Concept and Prerequisites of Car-to-Car Communication," Proc. 5th Euro. Congress Exhibition Intelligent Transport Sys. Services, Hannover, Germany, June 2005. pp. 1-12.
3. IEEE P802.11p/D2.01, "Standard for Wireless Local Area Networks Providing Wireless Communications while in Vehicular Environment," Mar. 2007.
4. G. Acosta, K. Tokuda, and M. A. Ingram, "Measured Joint Doppler-Delay Power Profiles for Vehicle-to-Vehicle Communications at 2.4 GHz," Proc. IEEE GLOBECOM '04, Dallas, TX, Nov. 2004, pp. 3813-3817
5. A. G. Zajic et al., "Wideband MIMO mobile-to-mobile Channels: Geometry-Based Statistical Modeling with Experimental Verification," IEEE Trans. Vehic. Tech., vol.58, no.2, Feb. 2009, pp. 517-534
6. I. Sen and D. W. Matolak, "Vehicle-Vehicle Channel Models for the 5-GHz Band," IEEE Trans. Intelligent Transportation Sys., vol.9, no.2, June 2008, pp. 235-245
7. A. Paier et al., "Characterization of Vehicle-to-Vehicle Radio Channels from Measurements at 5.2 GHz," Wireless Personal Commun., June 2008; http://dx.doi.org/10.1007/s11277-008-9546-6
8. L. Cheng et al., "Mobile Vehicle-to-Vehicle Narrowband Channel Measurement and Characterization of the 5.9 GHz Dedicated Short Range Communication (DSRC) Frequency Band," IEEE JSAC, vol.25, no.8, Oct. 2007, pp. 1501-1516
9. G. Acosta and M. A. Ingram, "Six Time-and Frequency- Selective Empirical Channel Models for Vehicular Wireless LANs," IEEE Vehic. Tech. Mag., vol.2, no.4, Dec. 2007, pp. 4-11.
10. J. Maurer et al., "A Ray-Optical Channel Model for Mobile to Mobile Communications," 4th MCM COST 2100, Wroclaw, Poland, Feb. 6-8, 2008.
11. A. S. Akki and F. Haber, "A Statistical Model for Mobile-to-Mobile Land Communication Channel," IEEE Trans. Vehic. Tech., vol.35, no.1, Feb. 1986, pp. 2-10.
12. A. G. Zajic and G. L. Stüber, "Space-Time Correlated Mobile-to-Mobile Channels: Modelling and Simulation," IEEE Trans. Vehic. Tech., vol.57, no.2, Mar. 2008, pp. 715-726
13. X. Cheng et al., "An Adaptive Geometry-Based Stochastic Model for Non-Isotropic MIMO Mobile-to- Mobile Channels," IEEE Trans. Wireless Commun., vol.8, no.9, Sept. 2009, pp. 4824-4835
14. X. Cheng, C.-X. Wang, and D. I. Laurenson, "A Geometry- based Stochastic Model for Wideband MIMO Mobile-to-Mobile Channels," Proc. IEEE GLOBECOM '09, Hawaii, USA, Nov.-Dec. 2009, accepted for publication.
15. J. Karedal et al., "A Geometry-based Stochastic MIMO Model for Vehicle-to-Vehicle Communications," IEEE Trans. Wireless Commun., vol.8, no.7, July 2009, pp. 3646-3657