From b013496f02372a6a1f7eb7451ea22896b42e1684 Mon Sep 17 00:00:00 2001 From: katerinatzo Date: Tue, 12 Oct 2021 12:59:05 +0200 Subject: [PATCH] abstract --- text/abstract.tex | 16 +++++++++------- 1 file changed, 9 insertions(+), 7 deletions(-) diff --git a/text/abstract.tex b/text/abstract.tex index a55aad5..68b39bf 100644 --- a/text/abstract.tex +++ b/text/abstract.tex @@ -1,25 +1,27 @@ \chapter{Abstract} \label{ch:abs} - +\kat{Il faut aussi en francais :) } Sensors, portable devices, and location-based services, generate massive amounts of geo-tagged, and/or location- and user-related data on a daily basis. -The manipulation of such data is useful in numerous application domains, e.g.,~healthcare, intelligent buildings, and traffic monitoring, to name a few. +The manipulation of such data is useful in numerous application domains, e.g.,~healthcare, intelligent buildings, and traffic monitoring. 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. To enable the secure---from the users' privacy perspective---data sharing, researchers have already proposed various seminal techniques for the protection of users' privacy. 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. +\kat{Mention here the extra challenges posed by the specific problem that you address : the Landmark privacy} % Survey -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. +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. As a matter of fact, a wealth of algorithms have been proposed for privacy-preserving data publishing, either for microdata or statistical data. -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. +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. 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. % Landmarks -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. +Having discussed the literature around continuous data publication, we continue to propose a novel type of data privacy, called \emph{\thething} privacy. +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. Differential privacy is a well-established paradigm in privacy-preserving time series publishing. 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. -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. -We design three privacy models that guarantee {\thething} privacy and validate our proposal on real and synthetic data sets. +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. +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.} \paragraph{Keywords:}