EN FR
EN FR




Section: Partnerships and Cooperations

National Initiatives

Co-Drive

  • Instrument: FUI-10

  • Duration: 2009-2012

  • Coordinator: Valeo

  • Abstract: the objective is to design and develop a user-end on-the-shelf product. This product will be embarked on a vehicle and is supposed to guide the driver and/or perform autonomous actions in order to optimize the driving process for enhanced mobility and security.

Corebots

  • Instrument: ANR

  • Duration: 2009-2012

  • Coordinator: Armines

  • Others partners: Intempora, Epitech

  • See also: http://corebots.net/

  • Abstract: The CoreBots team has been constituted to participate in the CAROTTE challenge for advanced autonomous robots organized by the French DGA and ANR. It is made of public and private entities specialized in robotics and gathers specialists of robotics hardware, software architecture and algorithms.

ABV

  • Title: Automatisation basse vitesse

  • Instrument: ANR

  • Duration: 2009-2012

  • Coordinator: IFFSTAR

  • Others partners: Continental, IBISC, IEF, Induct, LAMIH, Vismetris, UHA-MIPS, Véolia Environnement

  • See also: http://www.projet-abv.fr/

  • Abstract: This ambitious project aims at demonstrating automated driving at low speed in urban areas and on peri-urban roads...

PUMAS

  • Title: Plate-forme Urbaine de Mobilité Avancée et Soutenable

  • Instrument: FUI

  • Duration: 2010-2012

  • Coordinator: Egis Mobilité

  • Others partners: Induct, Intempora, Armines, Insa-Rouen, Esigelec

  • See also: http://www.projet-pumas.fr/

  • Abstract: The purpose of the project PUMAS is to create a platform for travel time information for cities and towns.

AMARE

  • Title: Accrochage Mécanique Automatique à Rendez-vous Électronique

  • Instrument: ADEME

  • Duration: 2009-2011

  • Coordinator: Modulowatt

  • Others partners: Valeo, Aicom, ADM Concept, Aixam Mega, DBT, Eigsi, groupe Chastagner

  • See also: http://www.modulowatt.com/Modulowatt_Projets.html

  • Abstract: AMARE is an innovative aiming at developing an original system dedicated to the automated charging of electric vehicles.

Travesti

  • Title: Traffic Volume Estimation via Space-Time Inference

  • Instrument: ANR SYSCOMM

  • Duration: 2009-2012

  • Coordinator: Inria (TAO)

  • Others partners: Armines

  • See also: http://travesti.gforge.inria.fr

  • Abstract: This project addresses the problem of modelling large scale complex systems to provide predictions of their macroscopic behaviour. For application purpose, we focus here on the particular problem of the real-time prediction of traffic conditions on a road network.