A data distributor has given sensitive data to a
set of supposedly trusted agents. Some of the
data are leaked and found in an unauthorized
place.
The distributor must assess the likelihood that
the leaked data came from one or more agents, as
opposed to having been independently gathered by
other means.
We propose data allocation strategies that
improve the probability of identifying leakages.
These methods do not rely on alterations of the
released data (e.g., watermarks).

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INTRODUCTION

DISTRIBUTER He is the owner of the data who
distributes the data to the third parties.
THIRD PARTIES Trusted recipients of the
distributers data who are also called as agents.
PERTURBATION Technique where the data are
modified and made less sensitive before being
handed to agents.
ALLOCATION STRATEGIES Tactics used by the
distributer to allocate the sensitive data in
order to increase the probability of detecting
the data leakage.

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OBJECTIVES

Avoiding the perturbation of the original data
before being handed to the agents.
Detecting if the distributers sensitive data has
been leaked by the agents.
The likelihood that an agent is responsible for a
leak is assessed.

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STUDY AND ANALYSIS

EXISTING SYSTEM
Traditionally, leakage detection is handled by
watermarking, e.g., a unique code is embedded in
each distributed copy.
If that copy is later discovered in the hands of
an unauthorized party, the leaker can be
identified.
DRAWBACKS OF EXISTING SYSTEM
Watermarking involves some modification of the
original data.
Watermarks can sometimes be destroyed if the data
recipient is intelligent.

PROPOSED SYSTEM
ALLOCATION STRATEGIES
The proposed system uses two allocation
strategies through which the data is allocated to
the agents. They are,
Sample request RiSAMPLE (T, mi) Any subset of
mi records from T can be given to agent.
Explicit request RiEXPLICIT (T, condition)
Agent receives all T objects that satisfy
condition.

start
FLOW CHART
Users explicit request
Check the Condition Select the agent.
else
exit
Create Fake Object is
Invoked
User Receives the Output.
Loop Iterates
end
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Example
Say that T contains customer records for a given
company A. Company A hires a marketing agency U1
to do an online survey of customers.
Since any customers will do for the survey, U1
requests a sample of 1,000 customer records.
At the same time, company subcontracts with
agent U2 to handle billing for all California
customers.
Thus, U2 receives all T records that satisfy the
condition state is California.

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FUTURE SCOPE

Future work includes the investigation of agent
guilt models that capture leakage
scenarios.
The extension of data allocation strategies so
that they can handle agent requests in an online
fashion.

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LIMITATION

The presented strategies assume that there is a
fixed set of agents with requests known in
advance.
The distributor may have a limit on the number of
fake objects.

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APPLICATIONS

It helps in detecting whether the distributers
sensitive data has been leaked by the trustworthy
or authorized agents.
It helps to identify the agents who leaked the
data.
Reduces cybercrime.

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CONCLUSION

Though the leakers are identified using the
traditional technique of watermarking, certain
data cannot admit watermarks.
In spite of these difficulties, we have shown
that it is possible to assess the likelihood that
an agent is responsible for a leak.
We have shown that distributing data judiciously
can make a significant difference in identifying
guilty agents using the different data allocation
strategies.

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REFERENCES

1 P. Buneman and W.-C. Tan, Provenance in
Databases, Proc. ACM SIGMOD, pp. 1171-1173,
2007.
2 Y. Cui and J. Widom, Lineage Tracing for
General Data Warehouse Transformations, The VLDB
J., vol. 12, pp. 41-58, 2003.
3 S. Czerwinski, R. Fromm, and T. Hodes,
Digital Music Distribution and Audio
Watermarking, http//www.scientificcommons.
org/43025658, 2007.
4 F. Guo, J. Wang, Z. Zhang, X. Ye, and D. Li,
An Improved Algorithm to Watermark Numeric
Relational Data, Information

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