Abstract
Internet of Vehicles is one of the applications of the Internet of things technology in the field of intelligent transportation, and cloud computing is a new computing model which can provide services to users. The road safety requirements are very important in Internet of Vehicles, such as road accidents, motor vehicle violations of traffic signs, the driver drinking or fatigue driving and other issues which are needed to be timely warning and performing related processing. For this purpose, a novel cloud computing application framework is proposed, which can deal with the problem of road traffic safety in time, and solve the problem of real-time multimedia service and security authentication service on the vehicle terminal, making the Internet of Vehicles users to enjoy the network service at anytime and anywhere.
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References
Barrero F, Guevara J A, Vargas E, et al. Networked transducers in intelligent transportation systems based on the IEEE 1451 standard[J]. Computer Standards & Interfaces. 2014, 36(2): 300-311.
Erl T, Puttini R, Mahmood Z. Cloud Computing: Concepts, Technology, & Architecture[M]. Pearson Education, 2013.
Yuriyama M, Kushida T. Integrated cloud computing environment with IT resources and sensor devices[J]. International Journal of Space-Based and Situated Computing, 2011, 1(2/3):163 - 173.
Kopetzky R, Nther M, Kryvinska N, et al. Strategic management of disruptive technologies: a practical framework in the context of voice services and of computing towards the cloud[J]. International Journal of Grid & Utility Computing, 2013, 4(4):47-59.
Shen Q, Yang Y, Wu Z, et al. Securing data services: a security architecture design for private storage cloud based on HDFS[J]. International Journal of Grid & Utility Computing, 2013, 4(4):242-254.
Ma K, Zhang L. Bookmarklet-triggered unified literature sharing services in the cloud[J]. International Journal of Grid & Utility Computing, 2014, 5(4):217-226.
Fernando N, Loke S W, Rahayu W. Mobile cloud computing: A survey[J]. Future Generation Computer Systems. 2013, 29(1): 84-106.
Dinh H T, Lee C, Niyato D, et al. A survey of mobile cloud computing: architecture, applications, and approaches[J]. Wireless communications and mobile computing. 2013, 13(18): 1587-1611.
Zhang Xiao. The power of cloud simulation laboratory project through the acceptance of China ICT companies [N].State Grid News,2011-02-11.
Zeadally S, Hunt R, Chen Y, et al. Vehicular ad hoc networks (VANETS): status, results, and challenges[J]. Telecommunication Systems. 2012, 50(4): 217-241.
Bitam S, Mellouk A, Zeadally S. VANET-cloud: a generic cloud computing model for vehicular Ad Hoc networks[J]. Wireless Communications, IEEE. 2015, 22(1): 96-102.
Perkins C E. Ad hoc networking[M]. Addison-Wesley Professional, 2008.
Huang Xiaoyuan. Cloud Platform Resources Scheduling Problem Research Based on Internet of Vehicles[D]. PhD Thesis, China: Dalian University of Technology, 2014.
Markovic D S, Zivkovic D, Branovic I, et al. Smart power grid and cloud computing[J]. Renewable and Sustainable Energy Reviews. 2013, 24: 566-577.
Xia Wenlong. Mobile Cloud-based Vehicular Networks Design And Key Technologies[D]. PhD Thesis, China: Guangdong University of Technology, 2014.
Nkenyereye L, Jang J W. Cloud Computing Enabled External Applications to Car Users using Nomadic Smartphones[C]. International Conference on Computer Information Systems and Industrial Applications, 2015. Atlantis Press, 2015.
PRESS. Cloud computing will be the driving force to drive the world [J]. Information System Engineering, 2015,5(20): 6-7.
Basaras P, Maglaras L, Katsaros D, et al. A Robust Eco-Routing Protocol Against Malicious Data in Vehicular Networks[J]. arXiv preprint arXiv:1506.05017. 2015.
Gazdar T, Benslimane A, Belghith A, et al. A secure cluster-based architecture for certificates management in vehicular networks[J]. Security and Communication Networks. 2014, 7(3): 665-683.
Hussain R. Cooperation-aware VANET clouds: providing secure cloud services to vehicular ad hoc networks[J]. Journal of information processing systems. 2014, 10(1): 103-118.
Lim K, Abumuhfouz I M, Manivannan D. Secure Incentive-Based Architecture for Vehicular Cloud[M]. Ad-hoc, Mobile, and Wireless Networks, Springer, 2015, 361-374.
Park Y, Sur C, Rhee K. Pseudonymous authentication for secure V2I services in cloudbased vehicular networks[J]. Journal of Ambient Intelligence and Humanized Computing. 2015: 1-11.
Zhou J, Dong X, Cao Z, et al. Secure and Privacy Preserving Protocol for Cloud-based Vehicular DTNs[J]. IEEE Transactions on Information Forensics and Security. 2015, 10(6): 1299-1314.
Housley R, Polk T. Planning for PKI: best practices guide for deploying public key infrastructure[M]. John Wiley & Sons, Inc., 2001.
Yan G, Rawat D B, Bista B B. Towards secure vehicular clouds[C]. 2012 Sixth International Conference on Complex, Intelligent and Software Intensive Systems (CISIS), 2012. IEEE, 2012: 370-375.
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XU, H., DING, Y., LI, P., WANG, R. (2017). A Novel Cloud Computing Architecture Oriented Internet of Vehicles. In: Xhafa, F., Barolli, L., Amato, F. (eds) Advances on P2P, Parallel, Grid, Cloud and Internet Computing. 3PGCIC 2016. Lecture Notes on Data Engineering and Communications Technologies, vol 1. Springer, Cham. https://doi.org/10.1007/978-3-319-49109-7_42
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DOI: https://doi.org/10.1007/978-3-319-49109-7_42
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