SXDH
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@ -7,6 +7,8 @@ Since then, many constructions have been proposed for cryptographic construction
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Multiple constructions and parameter sets coexist for pairings.
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Real-world implementation are based on elliptic curves~\cite{BN06, KSS08}, but recent advances in cryptanalysis makes it hard to evaluate the security level of pairing-based cryptography~\cite{KB16,BD17}.
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In the following, we rely on the black-box definition of cryptographic pairings as bilinear maps, and on the assumed hardness of a classical assumption over pairings, namely $\SXDH$.
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%\subsection{Bilinear maps}
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\begin{definition}[Pairings~\cite{BSS05}] \label{de:pairings}
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@ -30,7 +32,7 @@ Most standard assumptions over pairings are derived from the equivalent of the D
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This hypothesis, from which the Diffie-Hellman key exchange relies its security on, is then used to defined the $\SXDH$ assumption.
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\begin{definition}[$\SXDH$]
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\begin{definition}[{$\SXDH$~\cite[As.~1]{BGdMM05}}]
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The \emph{Symmetric eXternal Diffie-Hellman} ($\SXDH$) assumption holds if the $\DDH$ assumption holds both in $\GG$ and $\Gh$.
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\end{definition}
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