Académie 2 - Systèmes Complexes
L'Académie « Systèmes Complexes » fait partie des cinq Académies d'Excellence d'Université Côte d'Azur. Sa création est le résultat du projet : Joint, Excellent, and Dynamic Initiative (UCAJEDI). Ce projet a été sélectionné en tant qu'Initiative d'Excellence (IDEX) en janvier 2016, dans le cadre du Programme d'Investissements d'Avenir (PIA). L'objectif premier des Académies est d'accroître le niveau d'excellence de la recherche à Université Côte d'Azur en soutenant des projets innovants et en développant des collaborations entre différentes disciplines pour stimuler la recherche.
Pour plus d'informations, rendez-vous sur le site de l'Académie en cliquant ici.
Spatiotemporal organization of a living nematic by confinement and surface anchoring - Igor Aronson
17 novembre 2021UCA Fall program on Complex Systems
from the 18th to the 29th of October 2021
The Academy organizes a yearly fall program on a specific topic selected for its broadness and timeliness. The purpose is to gather world-renowned experts and young researchers, with various backgrounds, in order to cross-fertilize ideas and promote novel developments in complex systems research. The program includes survey lectures and provides the opportunity to develop a collaborative project. The preliminary results obtained during the program are expected to be of sufficient significance and novelty to lead to publications.
The 2021 fall program is dedicated to motile active matter, specifically on micro-swimming, locomotion into a complex fluid, mechanical aspects of self-propulsion, on emergent collective behaviors such as swarming, flocking and active phase separation, and on the applications of machine learning and artificial intelligence to model, optimize, and control displacement strategies of self-propelled entities, from bacteria to microrobots.
THEMATIC
The school is open to all PhD students, post-doctoral and permanent researchers interested in mobile active matter and wishing to get involved in a collaborative work in one of the following topics :
- Swimming into complex environment - micro-swimming
- Collective motion
- Machine learning applied to active particles
Mots clés : ; active bacteria collective computational effects equation linear matter microswimmers model momentum nematic of stokes transport turbulence
Informations
- Audrey D'Aiello (adaiello@unice.fr)
- 17 novembre 2021 21:48
- Séquence de cours
- Anglais