Application and Performance of CEN-DSRC to the Smart Tachograph

Sithamparanathan, K and Baldini, G 2018, 'Application and Performance of CEN-DSRC to the Smart Tachograph' in Fei Hu (ed.) Vehicle-to-Vehicle and Vehicle-to-Infrastructure Communication, CRC Press, Boca Raton, United States, pp. 77-91.


Document type: Book Chapter
Collection: Book Chapters

Title Application and Performance of CEN-DSRC to the Smart Tachograph
Author(s) Sithamparanathan, K
Baldini, G
Year 2018
Title of book Vehicle-to-Vehicle and Vehicle-to-Infrastructure Communication
Publisher CRC Press
Place of publication Boca Raton, United States
Editor(s) Fei Hu
Start page 77
End page 91
Subjects Electrical and Electronic Engineering not elsewhere classified
Wireless Communications
Summary The digital tachograph (DT) is a device installed in commercial vehicles above 3.5 tonnes in Europe to monitor the driving time of commercial drivers. The DT is based on a European regulation, which has been revised in February 2014 with new features like the provision of wireless communications for targeted checks by law enforcers on the road. The proposed wireless communication technology is based on the CEN (Comité Européen de Normalisation) dedicated short-range communication (DSRC) at 5.8 GHz. Even if the CEN-DSRC standard is widely deployed for tolling applications and various studies have already been performed, the use cases defined for the new version of the DT can be quite different from the existing ones. This paper analyses the application of CEN-DSRC to the DT, discusses the benefits for law enforcers, and proposes a feasibility study to evaluate the transmission and reception of data from the DT. The potential scenarios are described and the layer 1 and 2 aspects of the CEN-DSRC are extensively treated. The study provides the achievable range in communication, the corresponding bit error rate (BER) analysis and the time delay in completing a transaction between the CEN-DSRC module installed in the truck and the reader used by the law enforcers.
Copyright notice © 2018 by Taylor & Francis Group, LLC
ISBN 9781351782326
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