Wireless technology applications to enhance traveller safety

S. Edwards; G. Evans; P. Blythe; D. Brennan; K. Selvarajah

Wireless technology applications to enhance traveller safety

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Wireless technology applications to enhance traveller safety

Author(s): S. Edwards ; G. Evans ; P. Blythe ; D. Brennan ; K. Selvarajah
DOI: 10.1049/iet-its.2011.0002

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Author(s): S. Edwards ¹ ; G. Evans ¹ ; P. Blythe ¹ ; D. Brennan ¹ ; K. Selvarajah ²
- Affiliations: 1: Transport Operations Research Group, University of Newcastle Upon Tyne, Newcastle Upon Tyne, UK
  2: School of Computing Science, University of Newcastle Upon Tyne, Newcastle Upon Tyne, UK
Source: Volume 6, Issue 2, June 2012, p. 169 – 176
DOI: 10.1049/iet-its.2011.0002 , Print ISSN 1751-956X, Online ISSN 1751-9578

Published

This study provides an overview of CVHS and a detailed description of the contribution it can make to transport safety applications, with reference to selected experiments from the EU-funded EMMA, TRACKSS and SAVE ME projects.

References

1. 1)
  - http://intro.fehrl.org/, accessed April 2011.
2. 2)
  - http://www.emmaproject.eu/, accessed November 2010.
3. 3)
  - Selvarajah, K., Tully, A., Blythe, P.T.: `Zigbee for intelligent transport system applications', RTIC Proc., May 2008, p. 1–7.
4. 4)
  - http://zigbee.org/, accessed April 2011.
5. 5)
  - Department of Transport (UK): ‘Intelligent transport systems (ITS) – the policy framework for the road sector’, 2005.
6. 6)
  - Maerivoet, S., Logghe, S.: `Validation of travel times based on cellular floating vehicle data', Working Paper No. 2006–03, May 2007, CVIS Project.
7. 7)
  - http://car-2-car.org/, accessed April 2011.
8. 8)
  - M. Heddebaut , V. Deniau , K. Adouane . In-vehicle WLAN radio-frequency communication characterization. IEEE Trans. Intell. Transp. Syst. , 2 , 114 - 121
9. 9)
  - L. Yang , G.B. Giannakis . Ultra-wideband communications, an idea whose time has come. IEEE Signal Process. Mag. , 26 - 54
10. 10)
  - B.S. Sharif , P.T. Blythe , S. Almajnooni , C.C. Tsimenidis . Inter-vehicle mobile ad-hoc networks for road transport applications. Proc. IET J. ITS , 1 , 47 - 56
11. 11)
  - Arief, B., von Arnim, A.: `TRACKSS approach to improving road safety through sensors collaboration on vehicle and in infrastructure', Proc. Second IEEE Int. Symp. on Wireless Vehicular Communications (WiVeC 2008), September 2008, Calgary, Canada.
12. 12)
  - P. Papadimitratos , A. de la Fortelle , K. Evenssen , R. Brignolo , S. Cosenza . Vehicular communication systems: enabling technologies, applications, and future outlook on intelligent transportation. IEEE Commun. Mag. , 11 , 84 - 95
13. 13)
  - J.F. Ehmke , S. Meisel , D.C. Mattfeld , J. Barceló , M. Kuwahara . (2010) Floating car data based analysis of urban travel times for the provision of traffic quality, Traffic data collection and its standardization.
14. 14)
  - B. Warneke , M. Last , B. Liebowitz , K.S.J. Pister . Smart dust: communicating with a cubic-millimeter computer. Computer , 2 - 9
15. 15)
  - EC SEC (2011) 391 final: ‘Accompanying the White Paper – roadmap to a single European Transport Area – towards a competitive and resource efficient transport system’. Commission Staff Working Document, 2011.
16. 16)
  - N. Navet , Y. Song , F. Simonot-Lion , C. Wilwert . Trends in automotive communication systems. IEEE Proc. , 6 , 1204 - 1223
17. 17)
  - Von Arnim, A., Arief, B., Fusée, A.: `Cooperative road sign and traffic light using near infrared identification and Zigbee smartdust technologies', Proc. 15th World Congress on Intelligent Transport Systems (ITS 2008), November 2008, New York, USA, p. 16–20.
18. 18)
  - Review of Co-operative Vehicle Highway Systems, http://www.aecom.com/deployedfiles/Internet/Geographies/Europe/Resources/CVHS/CVHS%20Benefits%20Tables.pdf, accessed April 2011.
19. 19)
  - F.J. Martinez , C.-K. Toh , J.-C. Cano , C.T. Calafate , P. Manzoni . Emergency services in future intelligent transport systems based on vehicular communications networks. IEEE Intell. Transp. Syst. Mag. , 2 , 6 - 20
20. 20)
  - http://www.cvisproject.org/en/links/cover.htm, accessed April 2011.
21. 21)
  - M. Tubaishat , P. Zhuang , Q. Qi , Y. Sang . Wireless sensor networks in intelligent transportation systems. Wirel. Commun. Mob. Comput. , 287 - 302
22. 22)
  - CVIS Project: ‘Cooperative urban mobility’ (CVIS, 2010), CVIS Project Handbook.
23. 23)
  - S. Vassilaras , G. Yovanof . Wireless innovations as enablers for complex and dynamic artificial systems. Wirel. Pers. Commun. , 3 , 365 - 393
24. 24)
  - , : `2010 on the Horizon', 3rd Road Safety PIN report, 2009.
25. 25)
  - http://www.bluetooth.com, accessed November 2010.
26. 26)
  - European Union, Directive 2010/40/EU of the European Parliament and of the Council of 7 July 2010: ‘On the framework for the deployment of Intelligent Transport Systems in the field of road transport and for interfaces with other modes of transport’, 2010.
27. 27)
  - S. Messelodi , C.M. Modena , M. Zanin . Intelligent extended floating car data collection. Expert Syst. Appl. , 4213 - 4227
28. 28)
  - http://www.safespot-eu.org/, accessed April 2011.
29. 29)
  - Eastman, R., Miles, J.C., Wilkinson, J.: `Vision 2030: transport visions for strategic highways', Proc. ICE – Transport, 2004, p. 203–210, vol. 157, (4).
30. 30)
  - H. Cai , Y. Lin . A roadside ITS data bus prototype for intelligent highways. IEEE Trans. Intell. Transp. Syst. , 2 , 344 - 348
31. 31)
  - (2006) Communications access for land mobiles for the provision of intelligent transport services using wireless interfaces.
32. 32)
  - T. Kosch , I. Kulp , M. Bechler , M. Strassberger , B. Weyl , R. Lasowski . Communication architecture for cooperative systems in Europe. IEEE Commun. Mag. , 5 , 116 - 125
33. 33)
  - Arief, L.B., Blythe, P.T., Fairchild, R., Selvarajah, K., Tully, A.: `Integrating smartdust into intelligent transport systems', Proc. AATT (Advanced Applications of Technologies in Transport), May 2008, Athens.
34. 34)
  - http://www.watchover-eu.org/, accessed April 2011.
35. 35)
  - Furda, A., Bouraoui, L., Parent, M., Vlacic, L.: `The role and future challenges of wireless communication networks for cooperative autonomous city vehicles’. Communications: Wireless in Developing Countries and Networks of the Future', Third IFIP TC6 Int. Conf., WCITD2010 and IFIP TC 6 Int. Conf., NF 2010, IFIP Advances in Information and Communication Technology, 2010, vol. 327.
36. 36)
  - http://www.trackss.net/, accessed April 2011.
37. 37)
  - A. Tully . Pervasive tagging, sensors and data collection: a science and technology review for the foresight project on intelligent infrastructure systems. IET Intell. Transp. Syst. , 129 - 146
38. 38)
  - D.J. LeBlanc , B.H. Kantowitz . Cooperative vehicle-highway systems: gap analysis for emergency transportation operations. Int. J. Veh. Inf. Commun. Syst. , 122 - 141
39. 39)
  - http://www.save-me.eu/, accessed April 2011.

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