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Call for Paper - May 2015 Edition
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Security Model that prevents Data Leakage in Distributed Mobile Systems using Surrogate Objects

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IJCA Special Issue on Advanced Computing and Communication Technologies for HPC Applications
© 2012 by IJCA Journal
ACCTHPCA - Number 1
Year of Publication: 2012
Authors:
R. Anitha
S. Ravimaran
P. Valarmathi

R Anitha, S Ravimaran and P Valarmathi. Article: Security Model that prevents Data Leakage in Distributed Mobile Systems using Surrogate Objects. IJCA Special Issue on Advanced Computing and Communication Technologies for HPC Applications ACCTHPCA(1):21-25, July 2012. Full text available. BibTeX

@article{key:article,
	author = {R. Anitha and S. Ravimaran and P. Valarmathi},
	title = {Article: Security Model that prevents Data Leakage in Distributed Mobile Systems using Surrogate Objects},
	journal = {IJCA Special Issue on Advanced Computing and Communication Technologies for HPC Applications},
	year = {2012},
	volume = {ACCTHPCA},
	number = {1},
	pages = {21-25},
	month = {July},
	note = {Full text available}
}

Abstract

Devices such as smart phones are considered to be the most common communication devices in current scenario. Recently, mobile phones are not only used for voice and message communication but also, sending and receiving important data such as social security numbers, bank account details and passwords, so it is important to provide proper security to the data's in the distributed mobile environment. Although there is lots of security mechanisms have been proposed already, a lot more needs to be done. We have proposed a new security model that prevents data leakage among object based transaction execution in distributed mobile environment. The model first secures the data on the object by authenticating the user and then secures the data during transaction execution and reconciliation. The proposed mechanism is efficient in securing the data's because communication has been reduced by making the object to act on behalf of the server. It also ensures confidentiality of transaction by creating an encrypted tunnel between the objects and database server. The entire process is simulated and results shows that our model is more secured and provide less communication overhead than the existing models in the distributed mobile environment.

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