projet exploratoire (march 2013 – sept. 2014) of the LabEx Persyval-lab
Supervisory control Techniques for Autonomic, Adaptive and Reconfigurable computing Systems
news
We organise the Grenoble Workshop on Autonomic Computing and Control, , on 27 may 2014
objective |
members |
seminars |
Master’s Thesis |
objective
Computing systems are more and more ubiquitous, at scales from tiny embedded systems to large-scale
cloud infrastructures. They are more and more adaptive and reconfigurable, for resource management,
energy efficiency, or by functionality. Furthermore, these systems are increasingly complex and autonomous:
their administration cannot any longer rely on a strong interaction with a human administrator.
The correct design and implementation of automated control of the reconfigurations and/or their
tuning is recognized as a key issue for the effectiveness of these
adaptive systems.
Our objective is to build methods and tools for the design of safe controllers for autonomic, adaptive,
reconfigurable computing systems. To attain this goal, we propose to combine Computer Science and
Control Theory, at the levels of systems infrastructures, programming support, and modeling and control
techniques.
The purpose of this projet exploratoire is to :
- animate an open seminar on the broad topic,
where all interested researchers in Grenoble and Rhone-Alpes (From Lyon to Annecy)
can present their work and exchange ideas.We also organise the Grenoble Workshop on Autonomic Computing and Control, , on 27 may 2014 - peform research on a particular topic, as a Master’s Thesis.
members
- Hassane Alla
(Prof. UJF; HdR) (control) - Gwenaël Delaval
(Assistant Prof. UJF) (computing) - Nicolas Marchand
(CR CNRS) (control) - Eric Rutten
(scientific responsible) (CR INRIA; HdR) (computing) - Stephane Mocanu
(Gipsa-Lab, SysCo) - Yliès Falcone
(LIG, Vasco) - Bogdan ROBU
(Gipsa-Lab, SysCo)
seminars & meetings
This seminar follows upon previous seminars on the theme
by the Ctrl-A group.
See complete list of meetings and seminars
Master’s Thesis
We are
proposing a Master’s position Modélisation stochastique et contrôle discret dans les environnements domestiques “intelligents”