Abstract
The data comes from multiple optimal sources in parallel, helping reduce addressing and data-acquisition latency.
- Amadeo, M., Campolo, C., and Molinaro, A. Information-centric networking for connected vehicles: A survey and future perspectives. IEEE Communications Magazine, 54, 2 (Feb. 2016), 98--104. Google ScholarDigital Library
- Droms, R., Bound, J., Volz, B., Lemon, T., Perkins, C., and Carney, M. Dynamic Host Configuration Protocol for IPv6 (DHCPv6), RFC 3315. Internet Engineering Task Force, Fremont, CA, 2003; http://www.ietf.org/rfc/rfc3315.txt Google ScholarDigital Library
- Gladisch, A., Daher, R., and Tavangarian, D. Survey on mobility and multihoming in future Internet. Wireless Personal Communications 74, 1 (Jan. 2014), 45--81. Google ScholarDigital Library
- Islam, S., Hashim, A.H.A., Habaebi, M.H., and Hasan, M.K Design and implementation of a multihoming-based scheme to support mobility management in NEMO. Wireless Personal Communications 95, 2 (Feb. 2017), 457--473. Google ScholarDigital Library
- Khatouni, A.S., Marsan, M.A., and Mellia, M. Video upload from public transport vehicles using multihomed systems. In Proceedings of the IEEE Conference on Computer Communications (San Francisco, CA, Apr. 10--14). IEEE Computer Society Press, 2016, 306--307.Google ScholarCross Ref
- Omar, H., Zhuang, W., and Li, L. Gateway placement and packet routing for multihop in-vehicle Internet access. IEEE Transactions on Emerging Topics in Computing 3, 3 (Mar. 2015), 335--351.Google ScholarCross Ref
- Troan, O., Miles, D., Matsushima, S., Okimoto, T., and Wing, D. IPv6 Multihoming Without Network Address Translation, RFC 7157. Internet Engineering Task Force, Fremont, CA, 2014; http://www.ietf.org/rfc/rfc7157.txtGoogle Scholar
- Vegni, A.M. and Loscri, V. A survey on vehicular social networks. IEEE Communications Surveys & Tutorials 17, 4 (Apr. 2014), 2397--2419.Google Scholar
- Wang, X. Analysis and design of a k-anycast communication model in IPv6. Computer Communications 31, 10 (Oct. 2008), 2071--2077. Google ScholarDigital Library
- Wang, X. and Zhong, S. Research on IPv6 address configuration for a VANET. Journal of Parallel and Distributed Computing 73, 6 (June 2013), 757--766. Google ScholarDigital Library
- Wang, X. and Zhu, X. Anycast-based content-centric MANET. IEEE Systems Journal PP, 99 (Nov. 2016), 1--9.Google Scholar
- Zheng, Z., Lu, Z., Sinha, P., and Kumar, S. Ensuring predictable contact opportunity for scalable vehicular Internet access on the go. IEEE/ACM Transactions on Networking 23, 3 (Mar. 2015), 768--781. Google ScholarDigital Library
Index Terms
- Data acquisition in vehicular ad hoc networks
Recommendations
Reliable Data Delivery in Vehicular Ad Hoc Networks
BWCCA '13: Proceedings of the 2013 Eighth International Conference on Broadband and Wireless Computing, Communication and ApplicationsVehicular ad hoc networks (VANETs) are a specific type of Mobile ad hoc Networks (MANETs). Key characteristics of VANETs that distinguish from MANETs are time varying nature of vehicle density, high mobility, delay sensitive applications etc. Because of ...
Optimized AODV routing protocol for Vehicular Ad hoc Networks
GMC '10: Proceedings of the 2010 Global Mobile CongressThe paper presents the Vehicular Ad hoc Networks and the typical routing protocol: the ad hoc on-demand routing protocol (AODV) in mobile ad hoc networks and the optimized protocol AODV_OBD for protocol AODV; also presents a practical mobility model ...
A Mobicast Routing Protocol in Vehicular Ad-Hoc Networks
In this paper, we present a "spatiotemporal multicast", called a "mobicast", protocol for supporting applications which require spatiotemporal coordination in vehicular ad hoc networks (VANETs). The spatiotemporal character of a mobicast is to forward a ...
Comments