FORESEE : A simulation platform for experiments on road traffic self-organization mechanisms

Based on traffic data acquisition by the vehicles themselves, road traffic self-organization has been studied for several years. Geolocation equipment is now available at an affordable cost. With the IEEE-802.11p standard, wireless inter-vehicle communication is of age. This explains current interest for this subject, the practical applications being immediate.

[1]  M. Torrent-Moreno,et al.  Inter-vehicle communications: assessing information dissemination under safety constraints , 2007, 2007 Fourth Annual Conference on Wireless on Demand Network Systems and Services.

[2]  Bayan S. Sharif,et al.  Inter-vehicle mobile ad hoc network for road transport systems , 2007 .

[3]  M. Torrent-Moreno,et al.  Simulation platform for inter-vehicle communications and analysis of periodic information exchange , 2007, 2007 Fourth Annual Conference on Wireless on Demand Network Systems and Services.

[4]  D. Clawin,et al.  Wireless LAN performance under varied stress conditions in vehicular traffic scenarios , 2002, Proceedings IEEE 56th Vehicular Technology Conference.

[5]  Maen Artimy,et al.  Local Density Estimation and Dynamic Transmission-Range Assignment in Vehicular Ad Hoc Networks , 2007, IEEE Transactions on Intelligent Transportation Systems.

[6]  Dirk Helbing,et al.  Autonomous Detection and Anticipation of Jam Fronts from Messages Propagated by Intervehicle Communication , 2007 .

[7]  M. Nakagami The m-Distribution—A General Formula of Intensity Distribution of Rapid Fading , 1960 .

[8]  Teruo Higashino,et al.  Evaluation of inter-vehicle ad-hoc communication , 2005, 19th International Conference on Advanced Information Networking and Applications (AINA'05) Volume 1 (AINA papers).

[9]  I. Leontiadis,et al.  Opportunistic spatio-temporal dissemination system for vehicular networks , 2007, MobiOpp '07.

[10]  Helbing,et al.  Congested traffic states in empirical observations and microscopic simulations , 2000, Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics.

[11]  W. Robertson,et al.  Vehicle traffic microsimulator for ad hoc networks research , 2004, International Workshop on Wireless Ad-Hoc Networks, 2004..

[12]  Martin Mauve,et al.  A novel forwarding paradigm for position-based routing (with implicit addressing) , 2003, 2002 14th International Conference on Ion Implantation Technology Proceedings (IEEE Cat. No.02EX505).

[13]  Osamu Katai,et al.  Multiagent model of VICS , 1999, IEEE SMC'99 Conference Proceedings. 1999 IEEE International Conference on Systems, Man, and Cybernetics (Cat. No.99CH37028).

[14]  Thomas R. Gross,et al.  An evaluation of inter-vehicle ad hoc networks based on realistic vehicular traces , 2006, MobiHoc '06.

[15]  Teruo Higashino,et al.  INTER-VEHICLE AD-HOC COMMUNICATION PROTOCOL FOR ACQUIRING LOCAL TRAFFIC INFORMATION , 2004 .

[16]  Matthew J. Barth,et al.  An adaptive dissemination mechanism for inter-vehicle communication-based decentralized traffic information systems , 2006, 2006 IEEE Intelligent Transportation Systems Conference.

[17]  Aris M. Ouksel,et al.  Opportunistic resource exchange in inter-vehicle ad-hoc networks , 2004, IEEE International Conference on Mobile Data Management, 2004. Proceedings. 2004.

[18]  Jatinder Pal Singh,et al.  Cross-layer multi-hop wireless routing for inter-vehicle communication , 2006, 2nd International Conference on Testbeds and Research Infrastructures for the Development of Networks and Communities, 2006. TRIDENTCOM 2006..