Abstract
Currently, systems P2P cloud is built on the resources of computing, to implement features such as storage and communication, it is possible to find these cloud systems in smart homes. The systems P2P cloud must also ensure that the salient features of clouds—on-demand resource provisioning, elasticity and measured service—are maintained. In this era, several organizations are storing their data on P2P cloud storage in order to meet the requirements of efficient operation like stability, scalability, and availability of services. Data replication services in cloud storage systems are there to improve performance. In this context, the requirements for ensuring data consistency became increasingly important. In this paper, we propose a new technical solution the data consistency maintenance in Cloud Storage Systems. In this manuscript, we have shown that the proposed solution yields the results for the schema which ensures consistent data on costs and latency. In this paper, we use the Open Stack tool, which incorporates a proposed algorithm Balancing Consistency Availability On System Physical Machine for maintaining data consistency in Cloud Storage Systems.
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References
Yazir, Y.O., Matthews, C., Farahbod, R.: Dynamic resource allocation in computing clouds using distributed multiple criteria decision analysis. In: IEEE 3rd International Conference on Cloud Computing, pp. 91–98 (2010)
Adami, D., Gabbrielli, A., Giordano, S., Pagano, M., Portaluri, G.: A fuzzy logic approach for resources allocation in cloud data center. In: Proceedings 2015 IEEE Globecom Workshops (GC Wkshps), pp. 1–6 (2015)
Nakashima, T., Fujita, S.: Tree-based consistency maintenance scheme for peer-to-peer file sharing systems. In: 2013 First International Symposium on Computing and Networking (CANDAR), pp. 187-193. IEEE (2013)
Nguyen, H.H.C., Dang, V.T., Le, V.S.: Technical solutions to resources allocation for distributed virtual machine systems. Int. J. Comput. Sci. Inf. Secur. 13(2) (2015)
Nguyen, H.H.C., Solanki, V.K., Thang, D.V., Thuy, N.T.: Resource allocation for heterogeneous cloud computing. J. Netw. Protoc. Algorithms 09(2), 71–84 (2017)
Rowstron, A., Druschel, P.: Pastry: scalable, distributed object location and routing for large-scale peer-to-peer systems. In: IFIP/ACM International Conference on Distributed Systems Platforms and Open Distributed Processing, pp. 329–350. Springer, Heidelberg (2001)
Bermbach, D., Kuhlenkamp, J.: Consistency in distributed storage systems. In: Networked Systems, pp. 175–189. Springer, Heidelberg (2013)
Jin, H., Ibrahim, S., Bell, T., Qi, L., Cao, H., Wu, S., Shi, X.: Tools and technologies for building the clouds. In: Cloud computing: Principles Systems and Applications, pp. 3–20, August 2010
Kshemkalyani, A.D., Singhal, M.: Distributed Computing Principles, Algorithms, and Systems. Cambridge University Press, Cambridge (2008)
Shen, H., Liu, G., Chandler, H.: Swarm intelligence based file replication and consistency maintenance in structured P2P file sharing systems. IEEE Trans. Comput. 64, 2953–2967 (2015)
Li, Z., Xie, G., Li, Z.: Efficient and scalable consistency maintenance for heterogeneous peer-to-peer systems. IEEE Trans. Parallel Distrib. Syst. 19, 1695–1708 (2008)
Nassermostofi, F.: Toward authentication between familiar Peers in P2P networking systems. In: Proceeding of the 9th GI Conference on Autonomous Systems 2016, pp. 88–103 (2016)
Pang, X., Wang, C., Zhang, Y.: A new P2P identity authentication method based on zero-knowledge under hybrid P2P network. TELKOMNIKA Indones. J. Electr. Eng. 11(10), 6187–6192 (2013)
Chen, X., Ren, S., Wang, H.: SCOPE: scalable consistency maintenance in structured P2P systems. In: 24th Annual Joint Conference of the IEEE Computer and Communications Societies, INFOCOM, pp. 1502–1513 (2005)
Vishnumurthy, V., Francis, P.: On heterogeneous overlay construction and random node selection in unstructured P2P networks. In: Proceedings of the IEEE INFOCOM (2006)
Zhao, B.Y., et al.: Tapestry: a resilient global-scale overlay for service deployment. IEEE J. Sel. Areas Commun. 22, 41–53 (2004)
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Doan, V.T., Khang, V.Q.H., Nguyen, H.H.C., Huynh, C.P., Meesad, P. (2020). A Novel Solution for Virtual Server on the Data Consistency Maintenance in Cloud Storage Systems. In: Boonyopakorn, P., Meesad, P., Sodsee, S., Unger, H. (eds) Recent Advances in Information and Communication Technology 2019. IC2IT 2019. Advances in Intelligent Systems and Computing, vol 936. Springer, Cham. https://doi.org/10.1007/978-3-030-19861-9_22
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DOI: https://doi.org/10.1007/978-3-030-19861-9_22
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