Nabíl Schear scite author profile

Nabíl Schear

5Publications

143Citation Statements Received

61Citation Statements Given

How they've been cited

254

142

How they cite others

Affiliations

MIT Lincoln Laboratory, University of Illinois Urbana-Champaign, Massachusetts Institute of Technology

Publications

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Computing on masked data: a high performance method for improving big data veracity

Kepner

Gadepally

Michaleas

et al. 2014

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The growing gap between data and users calls for innovative tools that address the challenges faced by big data volume, velocity and variety. Along with these standard three V's of big data, an emerging fourth "V" is veracity, which addresses the confidentiality, integrity, and availability of the data. Traditional cryptographic techniques that ensure the veracity of data can have overheads that are too large to apply to big data.This work introduces a new technique called Computing on Masked Data (CMD), which improves data veracity by allowing computations to be performed directly on masked data and ensuring that only authorized recipients can unmask the data. Using the sparse linear algebra of associative arrays, CMD can be performed with significantly less overhead than other approaches while still supporting a wide range of linear algebraic operations on the masked data. Databases with strong support of sparse operations, such as SciDB or Apache Accumulo, are ideally suited to this technique. Examples are shown for the application of CMD to a complex DNA matching algorithm and to database operations over social media data.

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Website Detection Using Remote Traffic Analysis

Gong

Borisov

Kiyavash³

et al. 2012

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Abstract. Recent work in traffic analysis has shown that traffic patterns leaked through side channels can be used to recover important semantic information. For instance, attackers can find out which website, or which page on a website, a user is accessing simply by monitoring the packet size distribution. We show that traffic analysis is even a greater threat to privacy than previously thought by introducing a new attack that can be carried out remotely. In particular, we show that, to perform traffic analysis, adversaries do not need to directly observe the traffic patterns. Instead, they can gain sufficient information by sending probes from a far-off vantage point that exploits a queuing side channel in routers. To demonstrate the threat of such remote traffic analysis, we study a remote website detection attack that works against home broadband users. Because the remotely observed traffic patterns are more noisy than those obtained using previous schemes based on direct local traffic monitoring, we take a dynamic time warping (DTW) based approach to detecting fingerprints from the same website. As a new twist on website fingerprinting, we consider a website detection attack, where the attacker aims to find out whether a user browses a particular web site, and its privacy implications. We show experimentally that, although the success of the attack is highly variable, depending on the target site, for some sites very low error rates. We also show how such website detection can be used to deanonymize message board users.

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MAVMM: Lightweight and Purpose Built VMM for Malware Analysis

Nguyen

Schear

Jung

et al. 2009

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A survey of cryptographic approaches to securing big-data analytics in the cloud

Yakoubov

Gadepally

Schear

et al. 2014

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Transparent Web Service Auditing via Network Provenance Functions

Bates

Hassan

Butler

et al. 2017

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Nabíl Schear

Computing on masked data: a high performance method for improving big data veracity

Website Detection Using Remote Traffic Analysis

MAVMM: Lightweight and Purpose Built VMM for Malware Analysis

A survey of cryptographic approaches to securing big-data analytics in the cloud

Transparent Web Service Auditing via Network Provenance Functions

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