My name is Emmanuelle Anceaume. I received my Phd degree in Computer
Science in 1993 from the University Paris-Orsay (Paris-XI) for my work
on dependability systems. In 1994, I spent a little bit mess than one
year at Cornell University and worked with Sam Toueg on unreliable
failure detectors. Since 1996, I am CNRS researcher at IRISA-UMR6074
lab in the ADEPT research group.
My main research interests are in the field of distributed systems and
algorithms with a focus on fault tolerance issues. In the context of
dynamic and scalable systems, I am currently investigating
dependability and security issues.
Key words : Distributed systems and algorithms, dependability, availability, reliability, asynchronous protocols, peer-to-
peer systems, reputation.
SOLIPSIS -
A French R&D project (ANR-RIAM) leaded by Orange Labs, funded by
ANR and Media & Networks cluster of Brittany, launched in January
2007 and based on prior works dating from 2000. Aims of this project is
to create a public, massively-shared and user-generated unbound digital
universe, sustained by a dedicated Peer-to-Peer protocol, with a modern
day rendering engine and some great and accessible 3D modelling tools.
In other words: a decentralized Metaverse platform. Five partners are
involved:
* IRISA - Peer-to-peer networks & distributed systems
* Archivideo - Auto generation of 3D models & declarative method
* Artefacto - Avatars, contents & enhanced 3D modelling tools
* Rennes 2 University - Sociology of Community
* Orange Labs - Navigator, node and a bit of everything
P2Pima@ges -
The P2Pim@ges is a french R&D project whose aim is at offering peer
to peer system solutions for different audiovisual applications on
uncontrolled networks such as open Internet network algorithms and
protocol, impact of the introduction of QoS, study of network security
solutions for peer to peer content development. Ten partners are
involved:
Students - I
am currently looking for post-docs and Phd Students that would be
interested in investigating robustness of peer-to-peers overlays
(structured topologies and mesh ones) to churn and malicious behaviors,
as well as reputation mechanisms.
