problem: Reviewed lmdk-set-opts
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@ -1761,6 +1761,15 @@
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year = {2017}
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year = {2017}
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}
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@inproceedings{meshgi2015expanding,
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title={Expanding histogram of colors with gridding to improve tracking accuracy},
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author={Meshgi, Kourosh and Ishii, Shin},
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booktitle={2015 14th IAPR International Conference on Machine Vision Applications (MVA)},
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pages={475--479},
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year={2015},
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organization={IEEE}
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}
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@inproceedings{wang2017privacy,
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@inproceedings{wang2017privacy,
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title = {Privacy Preserving Anonymity for Periodical SRS Data Publishing},
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title = {Privacy Preserving Anonymity for Periodical SRS Data Publishing},
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author = {Wang, Jie-Teng and Lin, Wen-Yang},
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author = {Wang, Jie-Teng and Lin, Wen-Yang},
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@ -39,10 +39,16 @@ In Example~\ref{ex:lmdk-risk}, we demonstrate the extreme case of the applicatio
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\SetKwData{evalCur}{evalCur}
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\SetKwData{evalCur}{evalCur}
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\SetKwData{evalOrig}{evalOrig}
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\SetKwData{evalOrig}{evalOrig}
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\SetKwData{evalSum}{evalSum}
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\SetKwData{evalSum}{evalSum}
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\SetKwData{h}{h}
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\SetKwData{hi}{h$_i$}
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\SetKwData{hist}{hist}
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\SetKwData{histCur}{histCur}
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\SetKwData{histTmp}{histTmp}
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\SetKwData{metricCur}{metricCur}
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\SetKwData{metricCur}{metricCur}
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\SetKwData{metricOrig}{metricOrig}
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\SetKwData{metricOrig}{metricOrig}
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\SetKwData{opt}{opt}
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\SetKwData{opt}{opt}
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\SetKwData{opti}{opt$_i$}
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\SetKwData{opti}{opt$_i$}
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\SetKwData{opts}{opts}
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\SetKwData{optim}{optim}
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\SetKwData{optim}{optim}
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\SetKwData{optimi}{optim$_i$}
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\SetKwData{optimi}{optim$_i$}
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\SetKwData{opts}{opts}
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\SetKwData{opts}{opts}
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@ -51,7 +57,10 @@ In Example~\ref{ex:lmdk-risk}, we demonstrate the extreme case of the applicatio
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\SetKwFunction{calcMetric}{calcMetric}
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\SetKwFunction{calcMetric}{calcMetric}
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\SetKwFunction{evalSeq}{evalSeq}
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\SetKwFunction{evalSeq}{evalSeq}
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\SetKwFunction{getCombs}{getCombs}
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\SetKwFunction{getCombs}{getCombs}
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\SetKwFunction{getDiff}{getDiff}
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\SetKwFunction{getHist}{getHist}
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\SetKwFunction{getOpts}{getOpts}
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\SetKwFunction{getOpts}{getOpts}
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\SetKwFunction{getNorm}{getNorm}
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\input{problem/theotherthing/contribution}
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\input{problem/theotherthing/contribution}
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\input{problem/theotherthing/problem}
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\input{problem/theotherthing/problem}
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@ -73,7 +73,7 @@ Next, we present a heuristic solution with improved time and space requirements.
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\paragraph{Heuristic}
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\paragraph{Heuristic}
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Algorithm~\ref{algo:lmdk-sel-heur}, follows an incremental methodology.
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Algorithm~\ref{algo:lmdk-sel-heur}, follows an incremental methodology.
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At each step it selects a new timestamp that corresponds to a regular ({non-\thething}) event from $T \setminus L$.
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At each step it selects a new timestamp, that corresponds to a regular ({non-\thething}) event from $T \setminus L$, to create an option.
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\begin{algorithm}
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\begin{algorithm}
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\caption{Heuristic dummy {\thething} set options selection}
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\caption{Heuristic dummy {\thething} set options selection}
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@ -89,7 +89,7 @@ At each step it selects a new timestamp that corresponds to a regular ({non-\the
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\evalOrig $\leftarrow$ \evalSeq{$T, \emptyset, L$}\;
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\evalOrig $\leftarrow$ \evalSeq{$T, \emptyset, L$}\;
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% Get all possible option combinations
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% Get all possible option combinations
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\optim $\leftarrow$ $[]$\;
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\opts $\leftarrow$ $[]$\;
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$L' \leftarrow L$\;
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$L' \leftarrow L$\;
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@ -110,28 +110,87 @@ At each step it selects a new timestamp that corresponds to a regular ({non-\the
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\If{\diffCur $<$ \diffMin}{
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\If{\diffCur $<$ \diffMin}{
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\diffMin $\leftarrow$ \diffCur\;
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\diffMin $\leftarrow$ \diffCur\;
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\optimi $\leftarrow$ \reg\;
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\optimi $\leftarrow$ \reg\;
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}\label{algo:lmdk-sel-heur-comparison-end}
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}\label{algo:lmdk-sel-heur-cmp-end}
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}
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}
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% Save new point to landmarks
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% Save new point to landmarks
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$L'$.add(\optimi)\;
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$L'$.add(\optimi)\;
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% Add new option
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% Add new option
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\optim.append($L' \setminus L$)\;
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\opts.append($L' \setminus L$)\;
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}\label{algo:lmdk-sel-heur-end}
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}\label{algo:lmdk-sel-heur-end}
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\Return{\optim}
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\Return{\opts}
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\end{algorithm}
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\end{algorithm}
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Similar to Algorithm~\ref{algo:lmdk-sel-opt}, the selection is done based on a predefined metric (Lines~{\ref{algo:lmdk-sel-heur-comparison}-\ref{algo:lmdk-sel-heur-comparison-end}}).
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Similar to Algorithm~\ref{algo:lmdk-sel-opt}, it selects new options based on a predefined metric (Lines~{\ref{algo:lmdk-sel-heur-comparison}-\ref{algo:lmdk-sel-heur-cmp-end}}).
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This process (Lines~{\ref{algo:lmdk-sel-heur-while}-\ref{algo:lmdk-sel-heur-end}}) goes on until we select a set that is equal to the size of the series of events, i.e.,~$L' = T$.
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This process (Lines~{\ref{algo:lmdk-sel-heur-while}-\ref{algo:lmdk-sel-heur-end}}) goes on until we select a set that is equal to the size of the series of events, i.e.,~$L' = T$.
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In terms of complexity: given $n$ regular events it requires $\mathcal{O}(n^2)$ time and space.
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In terms of complexity, given $n$ regular events it requires $\mathcal{O}(n^2)$ time and space.
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Note that the reverse heuristic approach, i.e.,~starting with $T$ {\thethings} and removing until $L$, performs similarly with Algorithm~\ref{algo:lmdk-sel-heur}.
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Note that the reverse heuristic approach, i.e.,~starting with $T$ {\thethings} and removing until $L$, performs similarly with Algorithm~\ref{algo:lmdk-sel-heur}.
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\paragraph{Partitioned}
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We improve the complexity of Algorithm~\ref{algo:lmdk-sel-opt} by partitioning the {\thething} timestamp sequence $L$.
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Algorithm~\ref{algo:lmdk-sel-hist}, \getHist generates a histogram from $L$ with bins of size \h.
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We find \h by using the Freedman–Diaconis rule which is resilient to outliers and takes into account the data variability and data size~\cite{meshgi2015expanding}.
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For every possible histogram version, the \getDiff function finds the difference between two histograms; for this operation we utilize the Euclidean distance~(see Section~\ref{subsec:sel-utl} for more details).
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\mk{WIP: Histograms}
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\begin{algorithm}
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\caption{Partitioned dummy {\thething} set options selection}
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\label{algo:lmdk-sel-hist}
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\DontPrintSemicolon
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\KwData{$T, L$}
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\KwResult{\opts}
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\BlankLine
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\hist, \h $\leftarrow$ \getHist{$T, L$}\;
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\histCur $\leftarrow$ hist\;
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\opts $\leftarrow$ $[]$\;
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\While{sum($L'$) $\neq$ len($T$)}{ \label{algo:lmdk-sel-hist-while}
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% Track the minimum (best) evaluation
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\diffMin $\leftarrow$ $\infty$\;
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% The candidate option
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\opt $\leftarrow$ \histCur\;
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% Check every possibility
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\ForEach{\hi \reg $L'$}{ \label{algo:lmdk-sel-hist-cmp-start}
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% Can we add one more point?
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\If{\hi $+$ $1$ $\leq$ \h}{
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\histTmp $\leftarrow$ \histCur\;
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\histTmp$[i]$ $\leftarrow$ \histTmp$[i]$ $+$ $1$\;
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% Find difference from original
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\diffCur $\leftarrow$ \getDiff{\hist, \histTmp}\;
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% Remember if it is the best that you've seen
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\If{\diffCur $<$ \diffMin}{ \label{algo:lmdk-sel-hist-cmp}
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\diffMin $\leftarrow$ \diffCur\;
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\opt $\leftarrow$ \histTmp\;
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}
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}
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} \label{algo:lmdk-sel-hist-cmp-end}
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% Update current histogram
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\histCur $\leftarrow$ \opt\;
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% Add current best to options
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\opts $\leftarrow$ \opt\;
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} \label{algo:lmdk-sel-hist-end}
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\Return{\opts}
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\end{algorithm}
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Between Lines~{\ref{algo:lmdk-sel-hist-cmp-start}-\ref{algo:lmdk-sel-hist-cmp-end}} we check every possible histogram version by incrementing each bin by $1$ and comparing it to the original (Line~\ref{algo:lmdk-sel-hist-cmp}).
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In the end of the process, we return \opts which contains all the versions of \hist that are closest to \hist for all possible sizes of \hist.
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\subsubsection{Privacy-preserving option selection}
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\subsubsection{Privacy-preserving option selection}
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