Revocable Data Access Control in Public Cloud
Main Article Content
Abstract
A new suburbanised access management theme for secure information storage in clouds that support anonymous authentication. Throughout this theme, the cloud verifies the credibility of the user whereas not knowing the user’s identity before storing information and in addition has added the feature of access management throughout that entirely valid user’s square measure able to rewrite the hold on knowledge. The theme prevents reply attack and supports creation, modification, and reading the data hold on inside the cloud user and in addition have the address user revocation. Moreover, our authentication and access management theme is suburbanised and durable, in distinction to different access management schemes designed for clouds that square measure centralized. The communication, computation, and storage overheads square measure resembling centralized approaches. If the user does not have credentials to urge the key and incorrectly coming back into key to access the file implies that persona non grata identification activates the system to transfer a faux file to the persona non grata and inform to the administrator of the system thus the land in addition the} user United Nations agency created that file is attempt to access and conjointly hide the attribute and access policy of a user
Article Details
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
IJCERT Policy:
The published work presented in this paper is licensed under the Creative Commons Attribution 4.0 International (CC BY 4.0) license. This means that the content of this paper can be shared, copied, and redistributed in any medium or format, as long as the original author is properly attributed. Additionally, any derivative works based on this paper must also be licensed under the same terms. This licensing agreement allows for broad dissemination and use of the work while maintaining the author's rights and recognition.
By submitting this paper to IJCERT, the author(s) agree to these licensing terms and confirm that the work is original and does not infringe on any third-party copyright or intellectual property rights.
References
S. Ruj, Member, IEEE, M. Stojmenovic, Member, IEEE, and A.Nayak, Senior Member, IEEE"Decentralized Access Control with Anonymous Authentication of Data Stored in Clouds",Feb-2014,pp.384-394
S. Ruj, M. Stojmenovic, and A. Nayak, “Privacy Preserving AccessControl with Authentication for Securing Data in Clouds,” Proc. IEEE/ACM Int’l Symp.Cluster, Cloud and Grid Computing, pp.556- 563, 2012.
C. Wang, Q. Wang, K. Ren, N. Cao, and W. Lou, “Toward Secureand Dependable Storage Services in Cloud Computing,” IEEE Trans. Services Computing, vol. 5, no. 2, pp. 220-232, Apr.- June2012.
J. Li, Q. Wang, C. Wang, N. Cao, K. Ren, and W. Lou, “FuzzyKeyword Search Over Encrypted Data in Cloud Computing,” Proc. IEEE INFOCOM, pp. 441-445, 2010.
S. Kamara and K. Lauter, “Cryptographic Cloud Storage,” Proc.14th Int’l Conf. Financial Cryptography and Data Security, pp. 136-149, 2010.
H. Li, Y. Dai, L. Tian, and H. Yang, “IdentityBasedAuthentication for Cloud Computing,” Proc. First Int’l Conf. Cloud Computing (CloudCom), pp. 157-166, 2009.
C. Gentry, “A Fully Homomorphic Encryption Scheme,” PhDdissertation, Stanford Univ., http://www.crypto.stanford.edu/craig,2009.
R.K.L. Ko, P. Jagadpramana, M. Mowbray, S. Pearson, M.Kirchberg, Q. Liang, and B.S. Lee, “Trustcloud: A Framework for Accountability and Trust in Cloud Computing, ”HP TechnicalReport HPL- 2011- 38,http://www.hpl.hp.com/techreports/2011/HPL2011-38.html, 2013.
R. Lu, X. Lin, X. Liang, and X. Shen, “Secure Provenance: TheEssential of Bread and Butter of Data Forensics in Cloud Computing,” Proc. Fifth ACM Symp.Information, Computer andComm. Security (ASIACCS), pp. 282- 292, 2010.
D.F. Ferraiolo and D.R. Kuhn, “Role-Based Access Controls,” Proc.15th Nat’l Computer Security Conf., 1992.