Abstract
This paper presents a system and mechanisms enabling real-time awareness and interaction among vehicles connected via heterogeneous mobile networks. Information obtained by vehicles is considered as the centre in our system. Vehicles are organized dynamically in overlaid clusters. In each cluster, vehicle-related information is pushed in time. As a network node, each vehicle has the function of content abstraction and distribution. Through processing and abstracting the sensed data, various vehicle-related information are organized and denoted in hierarchical names at each node. The data are transmitted and forwarded using protocols accordant with the characteristics of the content. In this way, large-scale and real-time information exchanges among vehicles are realized. Part of our system has been implemented and tested. An open source platform providing standard sensor and actuator API can be provided.
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References
Hossain, E., Chow, G., et al.: Vehicular Telematics over Heterogeneous Wireless Networks: A survey. Journal of Computer Communications 33(7), 775–793 (2010)
Yu, Y., Tandiono, C., Li, X., et al.: ICAN: Information-centric Context-aware Ad-hoc Network. In: ICNC 2014, Honolulu, Hawaii (February 2014)
Chen, W., Cai, S.: Ad hoc Peer-to-Peer Network Architecture for Vehicle Safety Communications. IEEE Communications Magazine 43(4) (April 2005)
Tsilopoulos, C., Xylomenos, G.: Supporting Diverse Traffic Types in Information Centric Networks. In: ACM SIGCOMM Workshop on Information-Centric Networking, Toronto, Canada (August 2011)
Leal, M., Röckl, M., Kloiber, B., et al.: Information-centric Opportunistic Data Dissemination in Vehicular Ad-hoc Networks. In: 13th International IEEE Annual Conference on Intelligent Transportation Systems, Madeira Island, Portugal, September 19-22 (2010)
Kanter, T., Forsstrom, S., Kardeby, V., et al.: MediaSense– an Internet of Things Platform for Scalable and Decentralized Context Sharing and Control. In: ICDT 2012 (2012)
McGuinness, D.L., van Harmelen, F.: OWL web ontology language overview. W3C recommendation 10.2004-03, 10 (2004)
Web ontology language, http://www.w3.org/2001/sw/wiki/OWL
Ahlgren, B., Dannewitz, C., Imbrenda, C., et al.: A Survey of Information-centric Networking. IEEE Communications Magazine (July 2012)
Jacobson, V., Smetters, D.K., et al.: Networking Named Content. In: 5th International Conference on Emerging Networking Experiments and Technologies (December 2009)
Li, F., Chen, F., Wu, J.: Fast Longest Prefix Name Lookup for Content-centric Network Forwarding. In: 8th ACM/IEEE Symposium on Architecture for Networking and Communications Systems (2012)
MediaSense open source platform, http://www.mediasense.se
Chen, H., Finin, T., Joshi, A., Kagal, L.: Intelligent Agents Meet the Semantic Web in Smart Spaces. IEEE Internet Computing 8(6), 69–79 (2004)
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Kanter, T., Rahmani, R., Li, Y., Xiao, B. (2014). Vehicular Network Enabling Large-Scale and Real-Time Immersive Participation. In: Hsu, R.CH., Wang, S. (eds) Internet of Vehicles – Technologies and Services. IOV 2014. Lecture Notes in Computer Science, vol 8662. Springer, Cham. https://doi.org/10.1007/978-3-319-11167-4_7
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DOI: https://doi.org/10.1007/978-3-319-11167-4_7
Publisher Name: Springer, Cham
Print ISBN: 978-3-319-11166-7
Online ISBN: 978-3-319-11167-4
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