Published in International Journal of Advanced Research in Computer Science Engineering and Information Technology
ISSN: 2321-3337 Impact Factor:1.521 Volume:3 Issue:1 Year: 26 June,2014 Pages:375-379
Online community social media sites (OSNs) have experienced a blast lately and become a de facto website for thousands of a lot of Web users. These OSNs provide eye-catching means for digital community emails and details talking about, but also increase a variety of security and convenience problems. While OSNs allow clients to restrict availability allocated details, they currently do not provide any process to apply convenience problems over details associated with several clients. To this end, it suggests a way to allow the protection of allocated details associated with several clients in OSNs. It comes up with an availability control style to capture the substance of multiparty authorization requirements, along with a multiparty technique requirements technique and a technique administration process. Besides, it presents a sensible representation of our availability control style that allows us to make use of the features of current reasoning solvers to perform various studies on our style. It also speaks about a proof-of-concept design of our technique as part of an application in Face book or my space and provide performance study and system evaluation of our method.
Social network, multiparty access control, security model, policy specification and management
[1] Facebook passes google in time spent on site for first time ever. http://www.businessinsider.com/. [2] Social media, web 2.0 and internet stats. http://thefuturebuzz.com/2009/01/12/social-media-web-20- internet-numbers-stats/. [3] K. Wang and C. Lin. Insight into the P2P-VoD system: Performance modeling and analysis. In Proc. of ICCCN, 2009. [4] Y. Huang, Z. Fu, D. Chiu, C. Lui, and C. Huang. Challenges, design and analysis of a large-scale P2P VoD system. In Proc. SIGCOMM, 2008. [5] B. Cheng, L. Stein, H. Jin, X. Liao, and Z. Zhang. Gridcast: improving peer sharing for p2p vod. ACM TOMCCAP, 2008. [6] C.-P. Ho, S.-Y. Lee, and J.-Y. Yu. Cluster-based replication for P2P-based video-on-demand service. In Proc. of ICEIE, 2010. [7] J. Wang, C. Huang, and J. Li. On ISP-friendly rate allocation for peer-assisted VoD. In Proc. of MM, 2008. [8] C. Huang, J. Li, and K. W. Ross. Can internet video-on-demand be profitable? In Proc. of SIGCOMM, 2007.