Open Access Journal

ISSN : 2394-2320 (Online)

International Journal of Engineering Research in Computer Science and Engineering (IJERCSE)

Monthly Journal for Computer Science and Engineering

Open Access Journal

International Journal of Engineering Research in Computer Science and Engineering (IJERCSE)

Monthly Journal for Computer Science and Engineering

ISSN : 2394-2320 (Online)

Call For Paper : Vol 11, Issue 03, March 2024

Call for Paper

Vol 11, Issue 03, March 2024

Indexing

Security in Searching Shared and Encrypted Data in Multi Party Environment

Author : Amarja Jagtap-Patil 1 Pranav Chavan 2 Ashish Chaturvedi 3 Nagraj Kiwade 4 Jyoti Kshirsagar 5

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Date of Publication :7th April 2016

Abstract: Encryption is well established technology for protecting sensitive data. Multiparty Searchable Encryption is a scheme in which multiple users store and share their data with each other. The scheme consists of two entities: A server and set of users. Achieving multi-party searching is challenging as existing schemes are not achieving the secure searchable encryption due to the key sharing between set of users. Also it is not forming scalable solution for multi-party searching and settings, where users outsource their encrypted data to particular cloud server and selectively authorize each other to search. There can be a possibility that the cloud server may collude with some harmful users, it is a challenge to have a more secure and scalable multiparty searchable encryption (MPSE) scheme. This is shown by analysis on the Popa–Zeldovich scheme, which says that an honest user may leak all search patterns even if user shares only one of the documents with any unknown malicious user. Based on these analysis, system present a new security model for MPSE by considering the scenarios from best case to worst case, which capture different server user collusion possibilities. System then try to propose a MPSE scheme by employing the property linearity of Type-3 pairings and prove its security based on the bilinear Diffie–Hellman variant assumption in the oracle model. Moreover, the evaluations show the speed of proposed scheme compared with the old MPSE scheme with respect to searching and encryption/decryption.

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