thething: Added pf:thething-prv
This commit is contained in:
parent
75c2c10d06
commit
079c2fbcd8
@ -10,6 +10,7 @@
|
||||
\usepackage[ruled,lined,noend,linesnumbered]{algorithm2e}
|
||||
\usepackage{amsmath}
|
||||
\usepackage{amssymb}
|
||||
\usepackage{amsthm}
|
||||
\usepackage[french, english]{babel}
|
||||
\usepackage{booktabs}
|
||||
\usepackage{caption}
|
||||
|
@ -170,7 +170,33 @@ Theorem~\ref{theor:thething-prv} proposes how to achieve the desired privacy for
|
||||
\end{theorem}
|
||||
% \mk{To discuss.}
|
||||
|
||||
Due to space constraints, we omit the proof of Theorem~\ref{theor:thething-prv} and defer it for a longer version of this paper.
|
||||
% Due to space constraints, we omit the proof of Theorem~\ref{theor:thething-prv} and defer it for a longer version of this paper.
|
||||
\begin{proof}
|
||||
\label{pf:thething-prv}
|
||||
All mechanisms use independent randomness, and therefore for a series of events $S_T = {D_1, \dots, D_T}$ and outputs $(\pmb{o}_1, \dots, \pmb{o}_T) \in O \subseteq \mathcal{O}$ it holds that
|
||||
|
||||
$$Pr[\mathcal{M}(S_T) = (\pmb{o}_1, \dots, \pmb{o}_T)] = \prod_{i \in [1, T]} Pr[\mathcal{M}_i(D_i) = \pmb{o}_i]$$
|
||||
|
||||
Likewise, for any {\thething}-neighboring series of events $S'_T$ of $S_T$ with the same outputs $(\pmb{o}_1, \dots, \pmb{o}_T) \in O \subseteq \mathcal{O}$
|
||||
|
||||
$$Pr[\mathcal{M}(S'_T) = (\pmb{o}_1, \dots, \pmb{o}_T)] = \prod_{i \in [1, T]} Pr[\mathcal{M}_i(D'_i) = \pmb{o}_i]$$
|
||||
|
||||
Since $S_T$ and $S'_T$ are {\thething}-neighboring, there exists $i \in T$ such that $D_i = D'_i$ for a set of {\thethings} with timestamps $L$.
|
||||
Thus, we get
|
||||
|
||||
$$\frac{Pr[\mathcal{M}(S_T) = (\pmb{o}_1, \dots, \pmb{o}_T)]}{Pr[\mathcal{M}(S'_T) = (\pmb{o}_1, \dots, \pmb{o}_T)]} = \prod_{i \in L \cup \{t\}} \frac{Pr[\mathcal{M}_i(D_i) = \pmb{o}_i]}{Pr[\mathcal{M}_i(D'_i) = \pmb{o}_i]}$$
|
||||
|
||||
$D_i$ and $D'_i$ are neighboring for $i \in L \cup \{t\}$.
|
||||
$\mathcal{M}_i$ is differential private and from Definition~\ref{def:dp} we get that $\frac{Pr[\mathcal{M}_i(D_i) = \pmb{o}_i]}{Pr[\mathcal{M}_i(D'_i) = \pmb{o}_i]} \leq e^{\varepsilon_i}$.
|
||||
Hence, we can write
|
||||
|
||||
$$\frac{Pr[\mathcal{M}(S_T) = (\pmb{o}_1, \dots, \pmb{o}_T)]}{Pr[\mathcal{M}(S'_T) = (\pmb{o}_1, \dots, \pmb{o}_T)]} \leq \prod_{i \in L \cup \{t\}} e^{\varepsilon_i} = e^{\sum_{i \in L \cup \{t\}} \varepsilon_i}$$
|
||||
|
||||
For any $O \in \mathcal{O}$ we get $\frac{Pr[\mathcal{M}(S_T) \in O}{Pr[\mathcal{M}(S'_T) \in O]} \leq e^{\sum_{i \in L \cup \{t\}} \varepsilon_i}$.
|
||||
If the formula of Theorem~\ref{theor:thething-prv} holds, then we get $\frac{Pr[\mathcal{M}(S_T) \in O}{Pr[\mathcal{M}(S'_T) \in O]} \leq e^\varepsilon$.
|
||||
Due to Definition~\ref{def:thething-prv} this concludes our proof.
|
||||
\end{proof}
|
||||
|
||||
|
||||
\subsubsection{{\Thething} privacy mechanisms}
|
||||
\label{subsec:lmdk-mechs}
|
||||
|
Loading…
Reference in New Issue
Block a user