summary: FInished the perspectives
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\section{Perspectives}
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\section{Perspectives}
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\label{sec:persp}
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\label{sec:persp}
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\mk{WIP}
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\paragraph{Global {\thething} privacy}
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\paragraph{Global scheme}
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For now, we have applied {\thething} privacy in the local scheme and for microdata due to the advantages of the local scheme over the global as we discussed in detail in Section~\ref{subsec:data-publishing}.
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statistical data
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The adaptation of {\thething} privacy to support the global processing and publishing scheme would allow for the studying of more diverse scenarios including statistical data publishing.
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\paragraph{Streaming mode}
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\paragraph{Event categories}
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\paragraph{{\Thething} privacy over infinite event sequences}
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So far, we considered for our problem setting finite time series that are processed in batch mode.
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\paragraph{Spatiotemporal continuity}
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This was a decision that we made for the shake of simplicity in order to facilitate a more straightforward definition of {\thething} privacy.
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In the future, we plan to explore more dynamic scenarios where data are processed and published in streaming mode, which will lead to adoption of time critical crowdsensing applications.
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\paragraph{More correlations}
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In the future, we aim to work on automatically learning the initial landmark set by analyzing the input data sets,semantics, and user preferences.
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\paragraph{{\Thething} privacy and spatiotemporal continuity}
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We also plan to introduce learning for the tuning of ourAdaptive scheme parameters.
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In mereology, the formal study on the relation between parts and the entities they form, it is generally held that the identity of an observable object depends to its \emph{spatiotemporal continuity}~\cite{wiggins1967identity, scaltsas1981identity, hazarika2001qualitative}.
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That is, the property of well-behaved objects that alter their state in harmony with space and time.
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Considering events that span the entirety of the user-generated series of events thereof ensures the spatiotemporal continuity of the users.
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This way, it is possible to acquire more information regarding individuals' identities, and thus design privacy schemes that offer improved privacy and utility guarantees.
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\paragraph{Diversification of event categories}
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With the proposal of {\thething} privacy we introduced {\thething} events in privacy-preserving continuous data publishing.
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This categorization in regular and significant events enabled the development of a configurable differential privacy notion for time series.
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Variation of the existing event categories, e.g.,~weighted {\thethings}, or the introduction of new ones, would allow for an even more fine-grained configuration of privacy protection and the development of variations of {\thething} privacy.
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\paragraph{More data correlation types}
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In the current state of our work, we consider {\thethings} as one-dimensional elements in our problem setting.
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Consequently, we have explored {\thething} privacy under temporal correlation and examined the behavior of temporal privacy loss for different {\thething} percentages and distributions.
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Accounting for other possible dimensions, e.g.,~location, can introduce more aspects to the current use case of {\thething} privacy.
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Indicatively, as we have extensively studied in Section~\ref{sec:correlation}, there are many types of data correlation in time series to further research in the context of {\thething} privacy.
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\paragraph{Incorporation of machine learning}
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Until now, we consider the {\thething} discovery and selection process orthogonal to our work.
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In the future, we aim to work on automatically learning the initial {\thething} set by analyzing the input data sets, semantics, and user preferences.
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We also plan to introduce learning for the tuning of our \texttt{Adaptive} scheme parameters, which will further improve its sampling component and overall utility performance.
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