Differentially Private Filtering

Emerging systems such as smart grids or intelligent transportation systems often require end-user applications to continuously send information to external data aggregators performing monitoring or control tasks. This can result in an undesirable loss of privacy for the users in exchange of the bene...

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Published in	IEEE transactions on automatic control Vol. 59; no. 2; pp. 341 - 354
Main Authors	Le Ny, Jerome, Pappas, George J.
Format	Journal Article
Language	English
Published	New York IEEE 01.02.2014 The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects	Context Data privacy Estimation filtering Intelligent vehicle highway systems Kalman filtering Monitoring Privacy Vectors
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Abstract	Emerging systems such as smart grids or intelligent transportation systems often require end-user applications to continuously send information to external data aggregators performing monitoring or control tasks. This can result in an undesirable loss of privacy for the users in exchange of the benefits provided by the application. Motivated by this trend, this paper introduces privacy concerns in a system theoretic context, and addresses the problem of releasing filtered signals that respect the privacy of the user data streams. Our approach relies on a formal notion of privacy from the database literature, called differential privacy, which provides strong privacy guarantees against adversaries with arbitrary side information. Methods are developed to approximate a given filter by a differentially private version, so that the distortion introduced by the privacy mechanism is minimized. Two specific scenarios are considered. First, the notion of differential privacy is extended to dynamic systems with many participants contributing independent input signals. Kalman filtering is also discussed in this context, when a released output signal must preserve differential privacy for the measured signals or state trajectories of the individual participants. Second, differentially private mechanisms are described to approximate stable filters when participants contribute to a single event stream, extending previous work on differential privacy under continual observation.
AbstractList	Emerging systems such as smart grids or intelligent transportation systems often require end-user applications to continuously send information to external data aggregators performing monitoring or control tasks. This can result in an undesirable loss of privacy for the users in exchange of the benefits provided by the application. Motivated by this trend, this paper introduces privacy concerns in a system theoretic context, and addresses the problem of releasing filtered signals that respect the privacy of the user data streams. Our approach relies on a formal notion of privacy from the database literature, called differential privacy, which provides strong privacy guarantees against adversaries with arbitrary side information. Methods are developed to approximate a given filter by a differentially private version, so that the distortion introduced by the privacy mechanism is minimized. Two specific scenarios are considered. First, the notion of differential privacy is extended to dynamic systems with many participants contributing independent input signals. Kalman filtering is also discussed in this context, when a released output signal must preserve differential privacy for the measured signals or state trajectories of the individual participants. Second, differentially private mechanisms are described to approximate stable filters when participants contribute to a single event stream, extending previous work on differential privacy under continual observation.
Author	Pappas, George J. Le Ny, Jerome
Author_xml	– sequence: 1 givenname: Jerome surname: Le Ny fullname: Le Ny, Jerome email: jerome.le-ny@polymtl.ca organization: Dept. of Electr. Eng., Ecole Polytech. de Montreal, Montreal, QC, Canada – sequence: 2 givenname: George J. surname: Pappas fullname: Pappas, George J. email: pappasg@seas.upenn.edu organization: Dept. of Electr. & Syst. Eng., Univ. of Pennsylvania, Philadelphia, PA, USA
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SubjectTerms	Context Data privacy Estimation filtering Intelligent vehicle highway systems Kalman filtering Monitoring Privacy Vectors
Title	Differentially Private Filtering
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