Abstract
In
this paper we propose a forensic analysis system called CISRI that helps
forensic investigators determine the most influential members of a criminal
group, who are related to known members of the group, for the purposes of
investigation. In the CISRI framework, we describe the structural relationships
between the members of a criminal group in terms of a graph. In such a graph, a
node represents a member of a criminal group, an edge connecting two nodes
represents the relationship between two members of the group, and the weight of
an edge represents the degree of the relationship between those two members.
Using this representation, we propose a method that determines the relative
importance of nodes in a graph with respect to a given set of query nodes. Most
current approaches that study relative importance determine the relative
importance of a node under consideration by estimating the contribution of each
query node individually to the importance of this node while overlooking the
contribution of the query nodes collectively to the importance of the node
under consideration. This may lead to results with low precision. CISRI
overcomes this limitation by: (1) computing the contribution of the overall set
of query nodes to the importance of a node under consideration, and (2)
adopting a tight constraint calculation that considers how much each query node
contributes to the relative importance of a node under consideration. This
leads to accurate identification of nodes in the graph that are important, in relation
to the query nodes. In the framework of CISRI, a graph is constructed from
mobile communication records (e.g., phone calls and messages), where a node
represents a caller and the weight of an edge reflects the number of contacts
between two callers. We evaluated the quality of CISRI by comparing it
experimentally with three comparable methods. Our results showed marked
improvement.
Aim
The
aim is to generate a forensic analysis system called CISRI to help forensic
investigators determine the most influential members of a criminal group, who
are related to known members of the group, for the purposes of investigation.
Scope
The
scope of the CISRI is, to construct a graph from mobile communication records
(e.g., phone calls and messages), where a node represents a caller and the
weight of an edge reflects the number of contacts between two callers
Existing System
Digital
Forensics has always been an evolving field of research. This is primarily due
to the constantly changing devices and technologies that the investigator is
interacting with. To keep pace with this change, forensic practitioners have
spent a great deal of effort in seeking out and reviewing new techniques and
systems. Computing devices, such as Smartphones, Tablets, and traditional PCs
store a plethora of data as part of their normal functionality. The information
gathered from these devices can assist in analyzing and reconstructing events
that involved their owners. This permits the investigators to understand the
case under investigation and to deduce relevant conclusions of evidential
value. However, due to the amount of data that needs to be analyzed,
investigators are facing one of the most serious concerns in Digital Forensics;
namely the time and effort that need to be devoted to analyzing that data. It
complicates the process of identifying relevant evidence as investigators are
usually overwhelmed with a large amount of irrelevant data.
Disadvantages
· Existing
system permits the investigators to understand the case under investigation and
to deduce relevant conclusions of evidential value.
· However,
due to the amount of data that needs to be analyzed, investigators are facing
one of the most serious concerns in Digital Forensics; namely the time and
effort that need to be devoted to analyzing that data.
· It
complicates the process of identifying relevant evidence as investigators are
usually overwhelmed with a large amount of irrelevant data.
Proposed System
CISRI
overcomes limitations by: (1) computing the contribution of the overall set of
query nodes to the importance of a node under consideration, and (2) adopting a
tight constraint calculation that considers how much each query node
contributes to the relative importance of a node under consideration.
•
A system that analyzes criminal networks and determines the relative importance
of their members with respect to other known members.
• A tight constraint calculation of relative
importance that ensures accurate identification of important members in a
criminal network.
Advantages
· CISRI
can help forensic investigators determine the most influential members of a
criminal group, who are related to known members of the group.
· CISRI
overcomes the limitations of current relative importance algorithms by adopting
a tight constraint calculation.
· To
ensure accurate computation of relative importance, CISRI adopts mechanisms
that address the problems of incomplete contribution and inconsistent
contribution of query nodes.
· CISRI
outperformed the other algorithms.
· CISRI
leads to accurate identification of nodes in the graph that are important, in
relation to the query nodes.
System Specification
Hardware Requirements
- Speed - 1.1 Ghz
- Processor - Pentium IV
- 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 7
- Front End : ASP.Net and C#
- Database : MSSQL
- Tool : Microsoft Visual studio
References
Taha,
K. ; Martin, T.A.; Alzaabi, M.," CISRI: A CRIME INVESTIGATION SYSTEM USING
THE RELATIVE IMPORTANCE OF INFORMATION SPREADERS IN NETWORKS DEPICTING
CRIMINALS COMMUNICATIONS", IEEE Transactions on Information Forensics and
Security Volume: PP , Issue: 99 , June
2015.
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