An Enhanced Dynamic Auditing Protocol in Cloud Computing

  ijett-book-cover  International Journal of Engineering Trends and Technology (IJETT)          
  
© 2013 by IJETT Journal
Volume-4 Issue-7                      
Year of Publication : 2013
Authors : Md.Tajuddin , K.China Busi

Citation 

Md.Tajuddin , K.China Busi. "An Enhanced Dynamic Auditing Protocol in Cloud Computing". International Journal of Engineering Trends and Technology (IJETT). V4(7):3173-3176 Jul 2013. ISSN:2231-5381. www.ijettjournal.org. published by seventh sense research group.

Abstract

Main objective of this paper is to design secu re auditing protocol, during the data uploading to the server (Regular server/Cloud) through the data owner. Auditor place main role of monitoring the data transmission and data manipulations between the data owner and server. We introduced a secure and e fficient dynamic auditing protocol by using the File segmentation and distribution, Tag generation, and Random Challenge and verification algorithms. Our proposed approach is efficient than the traditional protocols.

References

[1] P. Mell and T. Grance, “The NIST definition of cloud computing,”National Institute of Standards and Technology, Tech. Rep., 2009.
[2] M. Armbrust, A. Fox, R. Griffith, A. D. Joseph, R. H.
[3] T. Velte, A. Velte, and R. Elsenpeter, Cloud Computing: A Practical Approach , 1st ed. New York, NY, USA: McGraw - Hill, Inc., 2010, ch. 7. Stoica, and M. Zaharia, “A view of cloud computing,” Comm un. ACM ,
[4] L. N. Bairavasundaram, G. R. Goodson, S. Pasupathy, and J. Schindler, “An analysis of latent sector errors in disk drives,” in SIGMETRICS , L. Golubchik, M. H. Ammar, and M. Harchol - Balter, Eds. ACM, 2007, pp. 289 – 300 .
[5] B. Schroeder and G. A. Gibson, “Disk failures in the real world: What does an mttf of 1, 000, 000 hours mean to you?” in FAST . USENIX, 2007, pp. 1 – 16.
[6] M. Lillibridge, S. Elnikety, A. Birrell, M. Burrows, and M. Isard, “A cooperative internet backup scheme,” in USENIX Ann ual Technical Conference, General Track . USENIX, 2003, pp. 29 – 41.
[7] Y. Deswarte, J. Quisquater, and A. Saidane, “Remote integrity checking,” in The Sixth Working Conference on Integrity and Internal Control in Information Systems (IICIS) . Springer Nether lands, November 2004.
[8] M. Naor and G. N. Rothblum, “The complexity of online memory checking,” J. ACM , vol. 56, no. 1, 2009.
[9] M. Naor and G. N. Rothblum, “The complexity of online memory checking,” J. ACM , vol. 56, no. 1, 2009.
[10] A. Juels and B. S . K. Jr., “Pors: proofs of retrievability for large files,” in ACM Conference on Computer and Communications Security , P. Ning, S. D. C. di Vimercati, and P. F. Syverson, Eds. ACM, 2007, pp. 584 – 597.
[11] T. J. E. Schwarz and E. L. Miller, “Store, forget, and check: Using algebraic signatures to check remotely administered storage,” in ICDCS . IEEE Computer Society, 2006, p. 12.
[12] D. L. G. Filho and P. S. L. M. Barreto, “Demonstrating data possession and uncheatable data transfer,” IACR Cryptology ePrint Archive , vol. 2006, p. 150, 2006.
[13] F. Seb ?e, J. Domingo - Ferrer, A. Mart ??nez - Ballest ?e, Y. Deswarte, and J. - J. Quisquater, “Efficient remote data possession checking incritical information .