IDENTITY-BASED DISTRIBUTED PROVABLE DATA
POSSESSION IN MULTI-CLOUD STORAGE
ABSTRACT:
Remote data integrity checking is of crucial
importance in cloud storage. It can make the clients verify whether their
outsourced data is kept intact without downloading the whole data. In some
application scenarios, the clients have to store their data on multi-cloud
servers. At the same time, the integrity checking protocol must be efficient in
order to save the verifier’s cost. From the two points, we propose a novel remote
data integrity checking model: ID-DPDP (identity-based distributed provable
data possession) in multi-cloud storage. The formal system model and security
model are given. Based on the bilinear pairings, a concrete ID-DPDP protocol is
designed. The proposed ID-DPDP protocol is provably secure under the hardness
assumption of the standard CDH (computational Diffie- Hellman) problem. In
addition to the structural advantage of elimination of certificate management,
our ID-DPDP protocol is also efficient and flexible. Based on the client’s
authorization, the proposed ID-DPDP protocol can realize private verification, delegated
verification and public verification.
EXISTING SYSTEM:
The
foundations of cloud computing lie in the outsourcing of computing tasks to the
third party. It entails the security risks in terms of confidentiality,
integrity and availability of data and service. The issue to convince the cloud
clients that their data are kept intact is especially vital since the clients
do not store these data locally. Remote data integrity checking is a primitive
to address this issue. For the general case, when the client stores his data on
multi-cloud servers, the distributed storage and integrity checking are
indispensable. On the other hand, the integrity checking protocol must be efficient
in order to make it suitable for capacity-limited end devices. Thus, based on
distributed computation, we will study distributed remote data integrity
checking model and present the corresponding concrete protocol in multi-cloud
storage.
DISADVANTAGES OF
EXISTING SYSTEM:
v Data
checking in more complex using multi servers.
v Needed
large storage space.
v In
sufficient data loss.
PROPOSED
SYSTEM:
In
identity-based public key cryptography, this paper focuses on distributed
provable data possession in multi-cloud storage. The protocol can be made
efficient by eliminating the certificate management. We propose the new remote
data integrity checking model: ID-DPDP. The system model and security model are
formally proposed. Then, based on the bilinear pairings, the concrete ID-DPDP
protocol is designed. In the random oracle model, our ID-DPDP protocol is
provably secure. On the other hand, our protocol is more flexible besides the
high efficiency. Based on the client’s authorization, the proposed ID-DPDP
protocol can realize private verification, delegated verification and public
verification.
ADVANTAGES OF PROPOSED
SYSTEM:
v
It has more significant storage space.
v
It provides secure public data’s.
v
Using Private Key generation.
SYSTEM ARCHITECTURE:
SYSTEM CONFIGURATION:-
HARDWARE REQUIREMENTS:-
Processor - Pentium –IV
Speed - 1.1 Ghz
RAM - 512 MB(min)
Hard Disk - 40 GB
Key Board - Standard Windows Keyboard
Mouse - Two or Three Button Mouse
Monitor - LCD/LED
SOFTWARE
REQUIREMENTS:
Operating
system : Windows XP.
Coding
Language : .Net
Data
Base : SQL Server 2005
Tool : VISUAL STUDIO 2008.
REFERENCE:
Wang,
H., “Identity-Based Distributed Provable
Data Possession in Multi-Cloud Storage” IEEE TRANSACTIONS ON CLOUD
COMPUTING, VOL. PP, NO. 99, 11 March 2014
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