logo EDITE Marjorie Audrey Elodie BOURNAT
Marjorie Audrey Elodie BOURNAT
État académique
Thèse en cours...
Sujet: Communiquer sans moyen direct de communication au sein d'une équipe de robots sujets à des pannes et des attaques
Direction de thèse:
Encadrement de thèse:
Ellipse bleue: doctorant, ellipse jaune: docteur, rectangle vert: permanent, rectangle jaune: HDR. Trait vert: encadrant de thèse, trait bleu: directeur de thèse, pointillé: jury d'évaluation à mi-parcours ou jury de thèse.
Productions scientifiques
Self-Stabilizing Robots in Highly Dynamic Environments
https://hal.inria.fr/hal-01368920 [Research Report] LIP6 UMR 7606, INRIA, UPMC Sorbonne Universités, France; University of Nevada, Las Vegas, United States. 2016ARRAY(0x7f04016514e8) 2016-09-20
Computability of Perpetual Exploration in Highly Dynamic Rings
https://hal.archives-ouvertes.fr/hal-01417565 [Research Report] Laboratoire d'informatique de Paris 6 [LIP6]; UPMC Sorbonne Universités/CNRS/Inria - EPI REGAL. 2016ARRAY(0x7f0400daa020) 2016-12-15
Elastic Management of Byzantine Faults
International audience
Tolerating byzantine faults on a large scale is a challenge: in particular, Desktop Grid environments sustain large numbers of faults that range from crashes to byzantine faults. Solutions in the literature that address byzantine failures are costly and none of them scales to really large numbers of nodes. This paper proposes to distribute task scheduling on trusted nodes in a Cloud network and to have these nodes assess the reliability of worker nodes by means of a reputation system. The resulting architecture is built for scalability and adapts costs to the workload associated with client requests.
11th European Dependable Computing Conference (EDCC 2015) https://hal.archives-ouvertes.fr/hal-01226601 Ilir Gashi; Yann Busnel. 11th European Dependable Computing Conference (EDCC 2015), Sep 2015, Paris, France. 2015, Proceedings of Fast Abstract - EDCC 2015ARRAY(0x7f0400590238) 2015-09-07