Преимущества сильносвязанных архитектур при комплексировании приемников глобальных навигационных спутниковых систем и VANET-приемопередатчиков
Abstract
Vehicular ad-hoc networks (VANETs) are one emerging type of networks that will enable a broad range of applications such as public safety, traffic management, traveler information support and entertainment. Whether wireless access may be asynchronous or synchronous (respectively as in the upcoming IEEE 8021.lip standard or in some alternative emerging solutions), a synchronization among nodes is required. Moreover, the information on position is needed to let vehicular services work and to correctly forward the messages. As a result, timing and positioning are a strong prerequisite of VANETs. Also the diffusion of enhanced GNSS Navigators paves the way to the integration between GNSS receivers and VANET transceivers.
This position paper presents an analysis on potential benefits coming from a tightcoupling between the two: the dissertation is meant to show to what extent Intelligent Transportation System (ITS) services could benefit from the proposed architecture.
About the Authors
Р. СкопиньоItaly
А. Коццетти
Italy
Л. Ло Прести
Italy
References
1. IEEE1609-Family of Standards for Wireless Access in Vehicular Environments (WAVE)
2. TG IEEE 802.11p – Wireless Access in Vehicular Environments
3. CAR 2 CAR Communication Consortium Manifesto http://www.car-to-car.org/fileadmin/downloads/C2C-CC_manifesto_v1.1.pdf
4. N. Wisitpongphan, O.K. Tonguz, J.S. Parikh, P. Mudalige, F. Bai, V. Sadekar, “Broadcast storm mitigation techniques in vehicular ad hoc networks”, IEEE Wireless Communications, vol. 14, no. 6, pp. 84-94, 2007
5. R.Scopigno, H.A.Cozzetti, “Mobile Slotted Aloha for Vanets”, IEEE VTC Fall, 2009
6. H.A. Cozzetti, Riccardo M. Scopigno, Luca Casone, Giuseppe Barba, “Comparative Analysis of IEEE 802.11p and MS-Aloha in Vanet Scenarios”, IEEE VON 2009
7. M.Lenoble, K.Ito, Y.Tadokoro, M.Takanashi and K.Sanda, “Header Reduction to Increase the Throughput in Decentralized TDMA-based Vehicular Networks”, IEEE VNC, 2009.
8. L.Barrier, “Robust Position Based Routing in Wireless Ad Hoc Networks with Unstable Transmission Ranges”, Proc. 5thACM Workshop Discrete Algorithms Methods for Mobile Comp. Commun, 2001.
9. P. F. Silva, J. S. Silva, A. Caramagno, A. Fernández, J. Diez, M. Wis, I. Colomina, V. Gabaglio, “IADIRA: Inertial Aided Deeply Integrated Receiver Architecture”, Proceedings of the ION GNSS, Forth Worth, Texas, September 2006
10. S. Godha and M. E. Cannon, "Integration of DGPS with a Low Cost MEMS – Based Inertial Measurement Unit (IMU) for Land Vehicle Navigation Application", Proceedings of ION GNSS, Long Beach, CA, September 21-24, 2004.
11. Kaplan, Elliot D. and Christopher J. Hegarty, “Understanding GPS: Principles and Applications”, Artech House, 2nd Edition, 2006
12. C.F.Chiasserini, R.Gaeta, M.Garetto, M.Gribaudo, M.Sereno, “Efficient Broadcasting of Safety Messages in Multihop Vehicular Networks”, IPDPS, 2006.
13. H.A.Cozzetti, R.Scopigno, L.Casone, G.Barba, “MapCast: a Map-Constrained Broadcast Solution for VANETs”, Proceeedings of IEEE 6th WiMob, 2010.
14. H.Anh, J.Kim, W.Cho, J.Choi, K.Lim, J.Kwak “A Robust and Low-Complexity Timing Synchronization Algorithm for ADSRC System”, Proceedings of IFIP WOCN'06, 2006.
15. Y.L.Morgan, “Novel Issues in DSRC Vehicular Communication Radios”, IEEE Canadian Review, N.63, Spring 2010.
16. Stojmenovic, Position-Based Routing in Ad-Hoc Networks, in IEEE Communication Magazine, 2002.
17. R.Scopigno and H.A.Cozzetti, “GNSS Synchronization in Vanets”, IEEE NTMS, 2009.
18. P.Papadimitratos, A.deLaFortelle, K.Evensssen, R.Brignolo, S.Cosenza, “Vehicular Communication Systems: Enabling Technologiees, Appllications and Future Outlook on Intelligent Transportation”, IEEE Communication Magazine, Nov.2009
19. P.Misra, P.Enge, “Global Positioning System. Signal, Measurements and Performance”, 2ndEdition, Ganga-Jamuna-Press 2006, ISBN:0-9709544-1-7.
Review
For citations:
, , . Giroskopiya i Navigatsiya. 2010;18(4):3-18. (In Russ.)
JATS XML



