International audienceSince its introduction, pseudorandom functions (PRFs) have become one of the main building blocks of cryptographic protocols. In this work, we revisit two recent extensions of standard PRFs, namely multilinear and aggregate PRFs, and provide several new results for these primitives. In the case of aggregate PRFs, one of our main results is a proof of security for the Naor-Reingold PRF with respect to read-once boolean aggregate queries under the standard Decision Diffie-Hellman problem, which was an open problem. In the case of multilinear PRFs, one of our main contributions is the construction of new multilinear PRFs achieving indistinguishability from random symmetric and skew- symmetric multilinear functions, which ...
Building cryptographic primitives that are secure against related-key attacks (RKAs) is a well-studi...
\ua9 2019, Springer Nature Switzerland AG. Distributed pseudorandom functions (DPRFs) formally defin...
Pseudorandomness is the subfield of theoretical computer science which studies explicit construction...
Since its introduction, pseudorandom functions (PRFs) have become one of the main building blocks of...
Abstract. We define the new notion of a multilinear pseudorandom function (PRF), and give a construc...
Thesis: S.M., Massachusetts Institute of Technology, Department of Electrical Engineering and Comput...
Pseudorandom functions (PRFs) are one of the most fundamental primitives in cryptography. In this wo...
In the first part of this work, we introduce a new type of pseudo-random function for which “aggrega...
Distributed pseudorandom functions (DPRFs) originally introduced by Naor, Pinkas and Reingold (EUROC...
Pseudorandom functions (PRFs) are the building blocks of symmetric-key cryptography. Almost all cent...
In this thesis, we study the algebraic structure underlying number-theoretic pseudorandom functions....
We describe efficient constructions for various cryptographic primitives (both in privatekey and in ...
We investigate, in a concrete security setting, several alternate characterizations of pseudorandom ...
Abstract. We describe efficient constructions for various cryptographic primitives in private-key as...
We put forth the notion of publicly evaluable pseudorandom functions (PEPRFs), which is a non-trivia...
Building cryptographic primitives that are secure against related-key attacks (RKAs) is a well-studi...
\ua9 2019, Springer Nature Switzerland AG. Distributed pseudorandom functions (DPRFs) formally defin...
Pseudorandomness is the subfield of theoretical computer science which studies explicit construction...
Since its introduction, pseudorandom functions (PRFs) have become one of the main building blocks of...
Abstract. We define the new notion of a multilinear pseudorandom function (PRF), and give a construc...
Thesis: S.M., Massachusetts Institute of Technology, Department of Electrical Engineering and Comput...
Pseudorandom functions (PRFs) are one of the most fundamental primitives in cryptography. In this wo...
In the first part of this work, we introduce a new type of pseudo-random function for which “aggrega...
Distributed pseudorandom functions (DPRFs) originally introduced by Naor, Pinkas and Reingold (EUROC...
Pseudorandom functions (PRFs) are the building blocks of symmetric-key cryptography. Almost all cent...
In this thesis, we study the algebraic structure underlying number-theoretic pseudorandom functions....
We describe efficient constructions for various cryptographic primitives (both in privatekey and in ...
We investigate, in a concrete security setting, several alternate characterizations of pseudorandom ...
Abstract. We describe efficient constructions for various cryptographic primitives in private-key as...
We put forth the notion of publicly evaluable pseudorandom functions (PEPRFs), which is a non-trivia...
Building cryptographic primitives that are secure against related-key attacks (RKAs) is a well-studi...
\ua9 2019, Springer Nature Switzerland AG. Distributed pseudorandom functions (DPRFs) formally defin...
Pseudorandomness is the subfield of theoretical computer science which studies explicit construction...