abstract
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\chapter{Abstract}
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\chapter{Abstract}
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\label{ch:abs}
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\label{ch:abs}
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\kat{Il faut aussi en francais :) }
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Sensors, portable devices, and location-based services, generate massive amounts of geo-tagged, and/or location- and user-related data on a daily basis.
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Sensors, portable devices, and location-based services, generate massive amounts of geo-tagged, and/or location- and user-related data on a daily basis.
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The manipulation of such data is useful in numerous application domains, e.g.,~healthcare, intelligent buildings, and traffic monitoring, to name a few.
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The manipulation of such data is useful in numerous application domains, e.g.,~healthcare, intelligent buildings, and traffic monitoring.
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A high percentage of these data carry information of users' activities and other personal details, and thus their manipulation and sharing arise concerns about the privacy of the individuals involved.
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A high percentage of these data carry information of users' activities and other personal details, and thus their manipulation and sharing arise concerns about the privacy of the individuals involved.
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To enable the secure---from the users' privacy perspective---data sharing, researchers have already proposed various seminal techniques for the protection of users' privacy.
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To enable the secure---from the users' privacy perspective---data sharing, researchers have already proposed various seminal techniques for the protection of users' privacy.
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However, the continuous fashion in which data are generated nowadays, and the high availability of external sources of information, pose more threats and add extra challenges to the problem.
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However, the continuous fashion in which data are generated nowadays, and the high availability of external sources of information, pose more threats and add extra challenges to the problem.
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\kat{Mention here the extra challenges posed by the specific problem that you address : the Landmark privacy}
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% Survey
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% Survey
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In the first part, we visit the works done on data privacy for continuous data publishing, and report on the proposed solutions, with a special focus on solutions concerning location or geo-referenced data.
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In this thesis, we visit the works done on data privacy for continuous data publishing, and report on the proposed solutions, with a special focus on solutions concerning location or geo-referenced data.
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As a matter of fact, a wealth of algorithms have been proposed for privacy-preserving data publishing, either for microdata or statistical data.
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As a matter of fact, a wealth of algorithms have been proposed for privacy-preserving data publishing, either for microdata or statistical data.
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In this context, this part seeks to offer a guide that would allow its users to choose the proper algorithm(s) for their specific use case accordingly.
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In this context, we seek to offer a guide that would allow readers to choose the proper algorithm(s) for their specific use case accordingly.
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We provide an insight into time-related properties of the algorithms, e.g.,~if they work on infinite, real-time data, or if they take into consideration existing data dependencies.
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We provide an insight into time-related properties of the algorithms, e.g.,~if they work on infinite, real-time data, or if they take into consideration existing data dependencies.
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% Landmarks
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% Landmarks
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In the second part, we argue that in continuous data publishing, events are not equally significant in terms of privacy, and hence they should affect the privacy-preserving processing.
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Having discussed the literature around continuous data publication, we continue to propose a novel type of data privacy, called \emph{\thething} privacy.
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We argue that in continuous data publishing, events are not equally significant in terms of privacy, and hence they should affect the privacy-preserving processing differently.
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Differential privacy is a well-established paradigm in privacy-preserving time series publishing.
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Differential privacy is a well-established paradigm in privacy-preserving time series publishing.
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Different schemes exist, protecting either a single timestamp, or all the data per user or per window in the time series, considering however all timestamps as equally significant.
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Different schemes exist, protecting either a single timestamp, or all the data per user or per window in the time series, considering however all timestamps as equally significant.
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In this part, we propose a novel configurable privacy scheme, \emph{\thething} privacy, which takes into account significant events (\emph{\thethings}) in the time series and allocates the available privacy budget accordingly.
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The novel scheme that we propose, \emph{\thething} privacy,is based on differential privacy, but also takes into account significant events (\emph{\thethings}) in the time series and allocates the available privacy budget accordingly.
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We design three privacy models that guarantee {\thething} privacy and validate our proposal on real and synthetic data sets.
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We design three privacy models that guarantee {\thething} privacy and validate our proposal on real and synthetic data sets. \kat{add selection, and a small comment on the conclusions driven by the experiments.}
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\paragraph{Keywords:}
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\paragraph{Keywords:}
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