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Description
Corporations invest considerable resources to create, preserve and analyze

their data; yet while organizations are interested in protecting against

unauthorized data transfer, there lacks a comprehensive metric to discriminate

what data are at risk of leaking.

This thesis motivates the need for a quantitative leakage risk metric, and

provides a risk assessment system,

Corporations invest considerable resources to create, preserve and analyze

their data; yet while organizations are interested in protecting against

unauthorized data transfer, there lacks a comprehensive metric to discriminate

what data are at risk of leaking.

This thesis motivates the need for a quantitative leakage risk metric, and

provides a risk assessment system, called Whispers, for computing it. Using

unsupervised machine learning techniques, Whispers uncovers themes in an

organization's document corpus, including previously unknown or unclassified

data. Then, by correlating the document with its authors, Whispers can

identify which data are easier to contain, and conversely which are at risk.

Using the Enron email database, Whispers constructs a social network segmented

by topic themes. This graph uncovers communication channels within the

organization. Using this social network, Whispers determines the risk of each

topic by measuring the rate at which simulated leaks are not detected. For the

Enron set, Whispers identified 18 separate topic themes between January 1999

and December 2000. The highest risk data emanated from the legal department

with a leakage risk as high as 60%.
ContributorsWright, Jeremy (Author) / Syrotiuk, Violet (Thesis advisor) / Davulcu, Hasan (Committee member) / Yau, Stephen (Committee member) / Arizona State University (Publisher)
Created2014
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Description
Due to the shortcomings of modern Mobile Device Management solutions, businesses

have begun to incorporate forensics to analyze their mobile devices and respond

to any incidents of malicious activity in order to protect their sensitive data. Current

forensic tools, however, can only look a static image of the device being examined,

making it difficult

Due to the shortcomings of modern Mobile Device Management solutions, businesses

have begun to incorporate forensics to analyze their mobile devices and respond

to any incidents of malicious activity in order to protect their sensitive data. Current

forensic tools, however, can only look a static image of the device being examined,

making it difficult for a forensic analyst to produce conclusive results regarding the

integrity of any sensitive data on the device. This research thesis expands on the

use of forensics to secure data by implementing an agent on a mobile device that can

continually collect information regarding the state of the device. This information is

then sent to a separate server in the form of log files to be analyzed using a specialized

tool. The analysis tool is able to look at the data collected from the device over time

and perform specific calculations, according to the user's specifications, highlighting

any correlations or anomalies among the data which might be considered suspicious

to a forensic analyst. The contribution of this paper is both an in-depth explanation

on the implementation of an iOS application to be used to improve the mobile forensics

process as well as a proof-of-concept experiment showing how evidence collected

over time can be used to improve the accuracy of a forensic analysis.
ContributorsWhitaker, Jeremy (Author) / Ahn, Gail-Joon (Thesis advisor) / Doupe, Adam (Committee member) / Yau, Stephen (Committee member) / Arizona State University (Publisher)
Created2015