|
Size: 902
Comment:
|
Size: 1866
Comment:
|
| Deletions are marked like this. | Additions are marked like this. |
| Line 5: | Line 5: |
| APRIORI is a collaborative research project between Germany (BMBF) and France [[http://www.agence-nationale-recherche.fr//|ANR]] | APRIORI is a collaborative research project between Germany [[https://www.bmbf.de//|BMBF]] and France [[http://www.agence-nationale-recherche.fr//|ANR]] |
| Line 7: | Line 7: |
| {{attachment:logo_anr.png||height="75px",width="180px"}} | {{attachment:logo_bmbf.png||height="75px",width="180px"}} {{attachment:logo_anr.png||height="75px",width="180px"}} |
| Line 10: | Line 10: |
| ARCHISEC stands for "micro-ARCHItectural SECurity". The "microarchitecture" is an implementation of a processor to run an Instruction Set Architecture (ISA). It embeds architectural tricks to increase the performance level or reduce the consumption. For instance, the use of a cache memory optimizes the computation speed but can be the source of attacks exploiting the time difference between the state "hit" and "miss". The goal of ARCHISEC is to simulate the processor microarchitectures in order to find weaknesses, associated protections and anticipate future potential attacks. |
APRIORI stands for "Advanced PRivacy of IOT Devices through Robust Hardware Implementations". The APRIORI project addresses the privacy preserving solution in the IoT. It considers a generic IoT architecture for privacy that relies on three important blocks: the “root of trust”, the protocol to use it for cryptographic purposes, and a secure element. The root of trust seed relies on a PUF providing a unique and unclonable secret to each IoT device. A first objective is to study the protection against physical attacks targeting the PUF, and more precisely the FIA. This goal is associated with a deep analysis of FIA impact by using laser or electromagnetic injection sources. A second objective is to study a generic protection against FIA. It is based on an array of digital sensors that would allow protecting not only the PUF but also the associated cryptographic blocks, as the secure element and the processor running sensitive applications. A third objective is to build a protocol to create a robust device identifier relying on a root of trust and on a composition of secure functions at system level. This will enhance the trust in identification and encryption, which are mandatory for secure boot or other sensitive software. A fourth objective is to propose an API for the secure element of the IoT. This API should be studied and designed securely so that no vulnerability can jeopardize the privacy of the IoT. |
Welcome to the APRIORI project website !
APRIORI is a collaborative research project between Germany BMBF and France ANR
APRIORI abstract
APRIORI stands for "Advanced PRivacy of IOT Devices through Robust Hardware Implementations". The APRIORI project addresses the privacy preserving solution in the IoT. It considers a generic IoT architecture for privacy that relies on three important blocks: the “root of trust”, the protocol to use it for cryptographic purposes, and a secure element. The root of trust seed relies on a PUF providing a unique and unclonable secret to each IoT device. A first objective is to study the protection against physical attacks targeting the PUF, and more precisely the FIA. This goal is associated with a deep analysis of FIA impact by using laser or electromagnetic injection sources. A second objective is to study a generic protection against FIA. It is based on an array of digital sensors that would allow protecting not only the PUF but also the associated cryptographic blocks, as the secure element and the processor running sensitive applications. A third objective is to build a protocol to create a robust device identifier relying on a root of trust and on a composition of secure functions at system level. This will enhance the trust in identification and encryption, which are mandatory for secure boot or other sensitive software. A fourth objective is to propose an API for the secure element of the IoT. This API should be studied and designed securely so that no vulnerability can jeopardize the privacy of the IoT.
Test
Page d'accueil
Gestion
Utilisateurs autorisés
Administrateurs
Tous les comptes
Outils
Page du menu