69 research outputs found
The appraisal of Facebook online community: An exposition of mobile commerce in social media reviews
Peer reviewe
Location Privacy Protection in the Mobile Era and Beyond
As interconnected devices become embedded in every aspect of our lives, they accompany
many privacy risks. Location privacy is one notable case, consistently recording an individual’s
location might lead to his/her tracking, fingerprinting and profiling. An individual’s
location privacy can be compromised when tracked by smartphone apps, in indoor spaces,
and/or through Internet of Things (IoT) devices. Recent surveys have indicated that users
genuinely value their location privacy and would like to exercise control over who collects
and processes their location data. They, however, lack the effective and practical tools to
protect their location privacy. An effective location privacy protection mechanism requires
real understanding of the underlying threats, and a practical one requires as little changes to
the existing ecosystems as possible while ensuring psychological acceptability to the users.
This thesis addresses this problem by proposing a suite of effective and practical privacy
preserving mechanisms that address different aspects of real-world location privacy threats.
First, we present LP-Guardian, a comprehensive framework for location privacy protection
for Android smartphone users. LP-Guardian overcomes the shortcomings of existing
approaches by addressing the tracking, profiling, and fingerprinting threats posed by
different mobile apps while maintaining their functionality. LP-Guardian requires modifying
the underlying platform of the mobile operating system, but no changes in either the apps
or service provider. We then propose LP-Doctor, a light-weight user-level tool which allows
Android users to effectively utilize the OS’s location access controls. As opposed to
LP-Guardian, LP-Doctor requires no platform changes. It builds on a two year data collection
campaign in which we analyzed the location privacy threats posed by 1160 apps for
100 users. For the case of indoor location tracking, we present PR-LBS (Privacy vs. Reward
for Location-Based Service), a system that balances the users’ privacy concerns and
the benefits of sharing location data in indoor location tracking environments. PR-LBS
fits within the existing indoor localization ecosystem whether it is infrastructure-based
or device-based. Finally, we target the privacy threats originating from the IoT devices
that employ the emerging Bluetooth Low Energy (BLE) protocol through BLE-Guardian.
BLE-Guardian is a device agnostic system that prevents user tracking and profiling while
securing access to his/her BLE-powered devices. We evaluate BLE-Guardian in real-world
scenarios and demonstrate its effectiveness in protecting the user along with its low overhead
on the user’s devices.PHDComputer Science & EngineeringUniversity of Michigan, Horace H. Rackham School of Graduate Studieshttps://deepblue.lib.umich.edu/bitstream/2027.42/138563/1/kmfawaz_1.pd
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