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Characterization of Vehicle-to-Vehicle Radio Channels from Measurements at 5.2 GHz

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Abstract

The development of efficient vehicle-to-vehicle (V2V) communications systems requires an understanding of the underlying propagation channels. In this paper, we present results on pathloss, power-delay profiles (PDPs), and delay-Doppler spectra from a high speed measurement campaign on a highway in Lund, Sweden. Measurements were performed at a carrier frequency of 5.2 GHz with the communicating vehicles traveling on the highway in opposite directions. A pathloss coefficient of 1.8 shows the best fit in the mean square sense with our measurement. The average root mean square (RMS) delay spread is between 263 ns and 376 ns, depending on the noise threshold. We investigate and describe selected paths in the delay-Doppler domain, where we observe Doppler shifts of more than 1,000 Hz.

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References

  1. Paier, A., Karedal, J., Czink, N., Hofstetter, H., Dumard, C., Zemen, T., Tufvesson, F., Molisch, A. F., & Mecklenbräuker, C. F. (2007). Car-to-car radio channel measurements at 5 GHz: Pathloss, power-delay profile, and delay-Doppler spectrum. In IEEE International Symposium on Wireless Communication Systems (ISWCS 2007), 17–19 October 2007, pp. 224–228.

  2. 802.11p. (2006). Draft amendment to wireless LAN medium access control (MAC) and physical layer (PHY) specifications: Wireless access in vehicular environments. IEEE P802.11p/D0.26, January 2006.

  3. Acosta, G., Tokuda, K., & Ingram, M. A. (2004). Measured joint Doppler-delay power profiles for vehicle-to-vehicle communications at 2.4 GHz. In Global Telecommunications Conference 2004, Vol. 6, 29 November–3 December 2004, pp. 3813–3817.

  4. Acosta, G., & Ingram, M. A. (2006). Model development for the wideband expressway vehicle-to- vehicle 2.4 GHz channel. In IEEE Wireless Communications and Networking Conference (WCNC) 2006, Vol. 3, 3–6 April 2006, pp. 1283–1288.

  5. Acosta-Marum, G., & Ingram, M. A. (2006). Doubly selective vehicle-to-vehicle channel measurements and modeling at 5.9 GHz. In Wireless Personal Multimedia Communications (WPMC) 2006, 17–20 September 2006.

  6. Maurer, J., Fügen, T., & Wiesbeck, W. (2002). Narrow-band measurement and analysis of the inter- vehicle transmission channel at 5.2 GHz. In Vehicular Technology Conference (VTC) 2002, Vol. 3, 6–9 May 2002, pp. 1274–1278.

  7. Matolak, D. W., Sen, I., Xiong, W., & Yaskoff, N. T. (2005). 5 GHz wireless channel characterization for vehicle to vehicle communications. In IEEE Military Communications Conference (MILCOM 2005), Vol. 5, 17–20 October 2005, pp. 3016–3022.

  8. Cheng L., Henty B.E., Stancil D.D., Bai F., Mudalige P. (2007) Mobile vehicle-to-vehicle narrow-band channel measurement and characterization of the 5.9 GHz dedicated short range communication (DSRC) frequency band. IEEE Journal on Selected Areas in Communications 25(8): 1501–1516

    Article  Google Scholar 

  9. Eggers, P. C. F., Brown, T. W. C., Olesen, K., & Pedersen, G. F. (2007). Assessment of capacity support and scattering in experimental high speed vehicle to vehicle MIMO links. In 65th IEEE Vehicular Technology Conference (VTC2007-Spring), 22–25 April 2007, pp. 466–470.

  10. Davis, J. S., & Linnartz, J. P. M. G. (1994). Vehicle to vehicle RF propagation measurements. In Conference Record of the Twenty-Eighth Asilomar Conference on Signals, Systems and Computers, 1994, Vol. 1, 31 October–2 November 1994, pp. 470–474.

  11. Yin, J., Holland, G., ElBatt, T., Bai, F., & Krishnan, H. (2006). DSRC channel fading analysis from empirical measurement. In First International Conference on Communications and Networking in China (ChinaCom ’06), 25–27 October 2006, pp. 1–5.

  12. Paier, A., Karedal, J., Czink, N., Hofstetter, H., Dumard, C., Zemen, T., Tufvesson, F., Mecklenbräuker, C. F., & Molisch, A. F. (2007). First results from car-to-car and car-to-infrastructure radio channel measurements at 5.2 GHz. In International Symposium on Personal, Indoor and Mobile Radio Communications (PIMRC 2007), 3–7 September 2007, pp. 1–5.

  13. Paier, A., Zemen, T., Bernadó, L., Matz, G., Karedal, J., Czink, N., Dumard, C., Tufvesson, F., Molisch, A. F., & Mecklenbräuker, C. F. (2008). Non-WSSUS vehicular channel characterization in highway and urban scenarios at 5.2 GHz using the local scattering function. In International Workshop on Smart Antennas (WSA 2008), 26–27 February 2008, pp. 9–15.

  14. Karedal, J., Tufvesson, F., Czink, N., Paier, A., Dumard, C., Zemen, T., Mecklenbräuker, C. F., & Molisch, A. F. (2008). A geometry-based stochastic MIMO model for vehicle-to-vehicle communications. IEEE Transactions on Wireless Communications, 2008, to be submitted.

  15. Thomä R., Hampicke D., Richter A., Sommerkorn G., Schneider A., Trautwein U., Wirnitzer W. (2000) Identification of time-variant directional mobile radio channels. IEEE Transactions on Instrumentation and Measurement 49: 357–364

    Article  Google Scholar 

  16. http://hitta.se, January, 2008.

  17. Molisch A.F. (2005) Wireless Communications. IEEE-Press, Wiley

    Google Scholar 

  18. Rossi J.-P. (1999) Influence of measurement conditions on the evaluation of some radio channel parameters. IEEE Transactions on Vehicular Technology 48: 1304–1316

    Article  Google Scholar 

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Authors and Affiliations

  1. Institut für Nachrichtentechnik und Hochfrequenztechnik, Technische Universität Wien, Vienna, Austria

    Alexander Paier & Christoph F. Mecklenbräuker

  2. Department of Electrical and Information Technology, Lund University, Lund, Sweden

    Johan Karedal, Fredrik Tufvesson & Andreas F. Molisch

  3. Forschungszentrum Telekommunikation Wien (ftw.), Vienna, Austria

    Nicolai Czink, Charlotte Dumard & Thomas Zemen

  4. Smart Antennas Research Group, Information Systems Lab, Standford University, Stanford, CA, 94305, USA

    Nicolai Czink

  5. Mitsubishi Electric Research Labs, Cambridge, USA

    Andreas F. Molisch

Authors
  1. Alexander Paier
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  2. Johan Karedal
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  3. Nicolai Czink
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  4. Charlotte Dumard
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  5. Thomas Zemen
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  6. Fredrik Tufvesson
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  7. Andreas F. Molisch
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  8. Christoph F. Mecklenbräuker
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Corresponding author

Correspondence to Alexander Paier.

Additional information

This work is an extended version of the conference paper [1].

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Paier, A., Karedal, J., Czink, N. et al. Characterization of Vehicle-to-Vehicle Radio Channels from Measurements at 5.2 GHz. Wireless Pers Commun 50, 19–32 (2009). https://doi.org/10.1007/s11277-008-9546-6

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  • DOI: https://doi.org/10.1007/s11277-008-9546-6

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