This thesis studies automated methods for analyzing hardness assumptions in generic group models, following ideas of symbolic cryptography. We define a broad class of generic and symbolic group models for different settings—symmetric or asymmetric (leveled) k-linear groups — and prove \u27\u27computational soundness\u27\u27 theorems for the symbolic models. Based on this result, we formulate a master theorem that relates the hardness of an assumption to solving problems in polynomial algebra. We systematically analyze these problems identifying different classes of assumptions and obtain decidability and undecidability results. Then, we develop automated procedures for verifying the conditions of our master theorems, and thus the validity o...
The generic-group model (GGM) aims to capture algorithms working over groups of prime order that onl...
Structure-preserving signatures (SPS) are pairing-based signatures where all the messages, signature...
Abstract. We construct both randomizable and strongly existentially unforgeable structure-preserving...
This thesis studies automated methods for analyzing hardness assumptions in generic group models, fo...
Abstract. The generic group model is a valuable methodology for analyzing the computational hardness...
Abstract. Structure-preserving signatures are signatures defined over bilinear groups that rely on g...
International audienceOne of the most important and successful tools for assessing hardness assumpti...
The existence of one-way functions implies secure digital signatures, but not public-key encryption ...
Abstract. We investigate structure-preserving signatures in asymmetric bilinear groups with an effic...
This habilitation thesis deals with cryptographic primitives that preserve the algebraic structure o...
In this thesis we introduce new primitives to authenticate computation on data expressed as elements...
A signature scheme is called structure-preserving if its verification keys, messages, and sig-nature...
Attribute-based encryption (ABE) is a cryptographic primitive which supports fine-grained access con...
Abstract In this paper we introduce new primitives to authenticate computation on data expressed as ...
A modular approach to constructing cryptographic protocols leads to simple designs but often ineffic...
The generic-group model (GGM) aims to capture algorithms working over groups of prime order that onl...
Structure-preserving signatures (SPS) are pairing-based signatures where all the messages, signature...
Abstract. We construct both randomizable and strongly existentially unforgeable structure-preserving...
This thesis studies automated methods for analyzing hardness assumptions in generic group models, fo...
Abstract. The generic group model is a valuable methodology for analyzing the computational hardness...
Abstract. Structure-preserving signatures are signatures defined over bilinear groups that rely on g...
International audienceOne of the most important and successful tools for assessing hardness assumpti...
The existence of one-way functions implies secure digital signatures, but not public-key encryption ...
Abstract. We investigate structure-preserving signatures in asymmetric bilinear groups with an effic...
This habilitation thesis deals with cryptographic primitives that preserve the algebraic structure o...
In this thesis we introduce new primitives to authenticate computation on data expressed as elements...
A signature scheme is called structure-preserving if its verification keys, messages, and sig-nature...
Attribute-based encryption (ABE) is a cryptographic primitive which supports fine-grained access con...
Abstract In this paper we introduce new primitives to authenticate computation on data expressed as ...
A modular approach to constructing cryptographic protocols leads to simple designs but often ineffic...
The generic-group model (GGM) aims to capture algorithms working over groups of prime order that onl...
Structure-preserving signatures (SPS) are pairing-based signatures where all the messages, signature...
Abstract. We construct both randomizable and strongly existentially unforgeable structure-preserving...