Section: Partnerships and Cooperations
ANR Projects with Industrials
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SAPHIR-II (Sécurité et Analyse des Primitives de Hachage Innovantes et Récentes)
Security and analysis of innovating and recent hashing primitives.
Participants : Patrick Derbez, Jérémy Jean.
From April 2009 to March 2013.
Partners: France Telecom R&D, Gemalto, EADS, SAGEM, DCSSI, Cryptolog, Inria/Secret, UVSQ, XLIM, CryptoExperts.
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BEST: Broadcast Encryption for Secure Telecommunications.
Participants : David Pointcheval, Elizabeth Quaglia, Mario Strefler, Damien Vergnaud, Aurore Guillevic, Sorina Ionica.
From December 2009 to December 2013.
Partners: Thales, Nagra, CryptoExperts, Univ. Paris 8.
This project aims at studying broadcast encryption and traitor tracing, with applications to the Pay-TV and geolocalisation services.
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PRINCE: Proven Resilience against Information leakage in Cryptographic Engineering.
Participants : Fabrice Ben Hamouda, Sonia Belaid, Alain Passelègue, Michel Ferreira Abdalla, David Pointcheval.
From December 2010 to December 2014.
Partners: UVSQ, Oberthur Technologies, Ingenico, Gemalto, Tranef.
We aim to undertake research in the field of leakage-resilient cryptography with a practical point of view. Our goal is to design efficient leakage-resilient cryptographic algorithms and invent new countermeasures for non-leakage-resilient cryptographic standards. These outcomes shall realize a provable level of security against side-channel attacks and come with a formally verified implementation. For this every practical aspect of the secure implementation of cryptographic schemes must be taken into account, ranging from the high-level security protocols to the cryptographic algorithms and from these algorithms to their implementation on specific devices which hardware design may feature different leakage models.
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SIMPATIC: SIM and PAiring Theory for Information and Communications security.
Participants : Damien Vergnaud, Olivier Sanders, David Pointcheval.
From February 2013 to August 2016.
Partners: Orange Labs,INVIA, Oberthur Technologies, STMicroelectronics, Université Bordeaux 1, Université de Caen Basse-Normandie, Université de Paris VIII
We aim at providing the most possible efficient and secure hardware/software implementation of a bilinear pairing in a SIM card.