A survey on Vehi-cloud Computing Networks (VCCN) its research issues and challenges
Abstract
Vehicular Clouds (Vehi-cloud) are envisioned and most likely to be incorporated in future development with the help of existing vehicular adhoc networks (VANET’s) to access value added services, location based services, traffic analysis and road safety Supplications, conventional clouds are fixed data centric, due to high mobility of vehicles the communication between stationary (road side) clouds and vehicles and inter-vehicle communication becomes heterogeneous and challenging to compute remote execution of data-intensive tasks during run-time which needs dynamic offloading and resource provisioning schemes and a need for efficient Vehi-Cloud operational model to proffer better QoS requirements with minimum service latency and service cost. In this article we unveil a brief survey of vehicle cloud computing networks and highlighted its research issues which have worked on it and challenges to be met.
References
computing”, Journal of Network and Computer Applications 40 (2014) 325–344”. [5] Cisco Visual Networking Index: Global Mobile Data Traffic Forecast White Paper, @ Cisco Systems Inc., February 3, 2016. [6] S. Wang, L.Sun, Q. Sun, J. Li, F. Yang, “Efficient service selection in mobile information systems, Mobile Information Systems”, whitepaper 2014, DoI: 10.3233/MIS-140203. [7] F. Rebecchi, M. Dias de Amorim, V. Conan, A. Passarella, R. Bruno, and M. Conti, “Data Offloading Techniques in Cellular Networks: A Survey”, IEEE Communications Surveys & Tutorials, Volume: 17 Issue: 2, Pages 580 - 603 Secondquarter 2015. [8] U. Lee, E. Magistretti, B. Zhou, M. Gerla, P. Bellavista, and A. Corradi, “MobEyes: Smart Mobs for Urban Monitoring with a Vehicular Sensor Network”, IEEE Communications Magazine, vol. 13(6), pp. 52 – 57, Oct. 2006. [9] Abuelela, M., & Olariu, (2010). “Taking VANET to the clouds. In Proceedings of the 8th international conference on advances in mobile computing and multimedia”, MoMM’10” Paris, page 6–13, November 08 - 10, 2010 . [10] Olariu, S., Eltoweissy, M., & Younis, M, “Towards autonomous Vehi-Clouds. ICST Transactions on Mobile Communications and Applications”, 11(7–9), 1–11. [11] Rasheed Hussain, Z & Oh,” A Paradigm Shift from Vehicular Ad Hoc Networks to VANET- Based Clouds”, USA, ACM, Wireless personal Communication Journal, Volume 83, Issue 2, Pages 1131-1158, July 2015. [12] Li, C.-T., Hwang, M.-S., & Chu, “ A secure and efficient communication scheme with authenticated key establishment and privacy preserving for vehicular ad hoc networks”, Computer Communications”, 31(12), 2803–2814, Elsevier 2008. [13] Singh S, Chana I, “Q-aware: quality of service based cloud resource provisioning”, Computers and Electrical Engineering Journal, Volume 47, Issue C, Pages 138-160, October 2015. [14] Singh S, Chana I, “QoS-aware autonomic cloud computing: A systematic review”, Journal of ACM computing surveys, Volume 48 Issue 3, Article No. 32, February 2016, [15] Arif S, Olariu S, Wang J, Yan G, Yang W, Khalil “Datacenter at the airport: reasoning about timedependent parking lot occupancy”,IEEE Transactions on Parallel and Distributed Systems, Volume: 23, Issue: 11, pages 2067 – 2080, Nov. 2012. [16] Oanh Tran Thi Kim, Nguyen Dang Tri, “Addressing Virtual Machine Migration Problems in Cloud Based Vehicular Networks” Department of Computer Engineering, Kyung Hee University, 2015. [17] Benjamin Baron, Miguel Campista,Spathis, Henrique M. K. Costa, Marcelo Dias de Amorim, “Virtualizing vehicular node resources: Feasibility study of virtual machine migration”, Vehicular Communications, Volume 4, April 2016, Pages 39– 46, [18] S. Abdel Hamid, G. Takahara and H. S. Hassanein, "On the Recruitment of Smart Vehicles for Urban Sensing," IEEE Global Communications Conference (GLOBECOM’13), Atlanta, GA, USA, Dec. 2013, pp. 58-63. [19] Xu, Ke, "Cloud-based Strategies for Robust Connectivity and Efficient Transmission in Vehicular Networks" (2015). All Dissertations. http://tigerprints.clemson.edu/all_dissertations/1507, Paper 1507. [20] Hameed Mir and Filali, “LTE and IEEE 802.11p for vehicular networking: a performance evaluation EURASIP”, Journal on Wireless Communications Networking, DOI: 10.1186/1687-1499-2014-830, May 2014. [21] Mohammad A. Salahuddin “Reinforcement Learning for Resource Provisioning in Vehicular Cloud”, IEEE Wireless Communications, vol.23, no.4, pp.128-135, August2016. [22] Garg SK, Gopalaiyengar SK, Buyya, “SLA-based resource provisioning for heterogeneous workloads in a virtualized Cloud datacenter”, Journal of Computer applications, Vol 45,Issue C, pages 108120, Oct 2014. [23] Poola D, Garg SK, Buyya R, Yang Y ” Robust scheduling of scientific workflows with deadline and budget constraints in Clouds”, The 28th IEEE international conference on advanced information networking and Applications, ISSN: 1550-445X 1316 May 2014 [24] Rosenberg F, Celikovic P, Michlmayr A, ”An endto-end approach for QoSaware service composition”, IEEE international enterprise distributed object computing conference, IEEE EDOC‟09, pp 151–160. [25] Fekri M. Abduljalil,”Video Capture Service in the Intelligent Transportation System based on Cloud Computing”, International Journal of Computer Applications (0975 – 8887), Volume 97– No.5, July 2014. [26] Al-Fares Alexander Loukissas, Mohammad, “A Scalable, Commodity Data Center Network Architecture”, SIGCOMM’08, Seattle, Washington,
USA. Copyright 2008 ACM 978-1-60558-1750/08/08, August 17–22, 2008. [27] Gongjun Yan, Jin Wang, Stephan Olariu, Samiur Arif, Weiming Yang, Ismail Khalil, "Datacenter at the Airport: Reasoning about Time-Dependent Parking Lot Occupancy", IEEE Transactions on Parallel & Distributed Systems, vol. no 23, pp. 20672080, Nov. 2012. [28] Zhang, C,Lin, X.; Lu, R.; Ho, “RAISE: An efficient RSU-aided message authentication scheme in vehicular communication networks”, in Proceedings of the IEEE International Conference on Communications (ICC’08), Beijing, China, 19– pp. 1451–1457, 23 May 2008. [29] Kargl, F.; Papadimitratos, P.; Buttyan, “vehicular communication systems: Implementation, performance, and research challenges”. IEEE Communication Magazine. Volume no 46, Issue: 11, Pages 110–118, November 2008. [30] Zhang J, Kim J, Yousif M, Carpenter R, “Systemlevel performance phase characterization for ondemand resource provisioning”, IEEE international conference on cluster computing”, pp 434–439. ISBN: 978-1-4244-1387-4, 19 September 2008. [31] Tian F, ChenK “Towards optimal resource provisioning for running map reduce programs in public Clouds”, IEEE international conference on cloud computing (CLOUD)”, pp 155–162. [32] Calheiros RN, Vecchiola C, Karunamoorthy D, Buyya R, “The Aneka platform and QoS-driven resource provisioning for elastic applications on hybrid Clouds”. Future Generetion Computer System, Volume 28 Issue 6, Pages 861-870 June, 2012. [33] Vecchiola C, Calheiros RN, Karunamoorthy D, Buyya R, “Deadline-driven provisioning of resources for scientific Supplications in hybrid Clouds with Aneka”, Future Generetion Computer System, Volume 28 Issue 1, Pages 58-65, January, 2012. [34] M. Salek, S. Shayandeh and D. Kempe, "You share, I share: Network effects and economic incentives in P2P file-sharing systems," Lecture Notes in Computer Science, vol. 6484, 2010, pp. 354- 365. [35] Grewal RK, Pateriya P K ,”A rule-based approach for effective resource provisioning in hybrid Cloud environment”, AISC 2003, Patnaik et.al (eds) New paradigms in Internet computing. Berlin,pp 41–57, Springer 2013. [36] Green berg et al,” Towards a Next Generation Data Center Architecture: Scalability and Commoditization”, Seattle, WA, USA, In Proceedings of ACM PRESTO, ISBN: 978-1-60558-181-1, August 22 - 22, 2008. [37] Md Ali Al Mamun, Khairul Anam, Md Fakhrul Alam Onik, A M Esfar- E- Alam,” Deployment of Cloud Computing into VANET to Create Ad Hoc Cloud Network Architecture”, San Francisco, USA Proceedings of the World Congress on Engineering and Computer Science 2012 Vol-I WCECS 2012, October 24-26, 2012. [38] Rong yu, Yan Zhang,Stein Gjessing, “ Toward cloud-based Vehicular Networks with efficient Resource Management”, IEEE Communications Society Volume: 27, Issue: 5, pp 48 – 55, 2013. [39] M. Satyanarayanan, P.Bahl, “The case for VM-based Cloudlets in mobile Computing”, IEEE Pervasive Computing, Vol.8, no.9, 2009.
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