Search
Navigation by hybridation of magneto-Inertia and dynamic corrections – TMI-REDY
Le projet TMI-REDY pour Tachymètre Magnéto-Inertiel couplé avec le Recalage Dynamique de la vitesse en proposant le couplage de 2 technologies de navigation à l’estime avec du recalage de navigation par une infrastructure non intègre (type GPS) permet de répondre aux enjeux de localisation d’un piét
Wearable indoor-outdoor localization system – SMART-ILOC
The challenge MALIN offers, in a competition context, the opportunity and means to accelerate innovations in the field of indoor localization in non-collaborative environment. Several technologies can be chosen to tackle this problem, but none today provides the sufficient reliability and robustness
Localization Orientation and 3D CArtography – LOCA-3D
The goal of this challenge is to develop and experiment accurate location solutions for emergency intervention officers and security forces. These solutions must be efficient inside buildings and more generally in conditions where satellite positioning systems do not work satisfactorily. The objecti
Adaptive multi-sensors solution for Indoor/Outdoor geolocation – CyborgLOC
The CyborgLOC project aims at the pre-industrial production of a multi-sensor adaptive solution for nomadic Indoor Outdoor geolocation. CyborgLOC relies on: a) the state of the art achieved by the IFSTTAR laboratory in inertial navigation (between 0.35% and 2% deviation over one kilometer), b) on De
Inertial & Vision Research for Indoor Localization – RIVOLI
The RIVOLI project (Inertial & Vision Research for Indoor Localization) proposed by iXblue and ONERA is aimed at developing a pedestrian localization system for non-collaborative indoor / outdoor environment and test it during the 3 competitions of the MALIN Challenge. RIVOLI is based on the reco