ANR

RAPIDFLOW

Keywords: 
HEMODYNAMIQUE
RMN DE FLUX
Exploring radial sampling strategies for fast and reliable flow measurements in MRI by combining realistic numerical simulations and advanced deep learning-based image reconstruction
Project Leader: 
INSA Lyon
INSA’s scientific leader: 
Bruno SIXOU

The goal of the project is to provide clinicians a fast and reliable, velocity quantification method to explore abnormal blood flow in the most anatomically

INSA Challenge: 
Santé Globale et Bioingénierie
Partners: 
UNIVERSITÉ DE MONTPELLIER
CNRS
Funding Institution: 
ANR
Dates - Duration: 
2024-10-01 00:00:00 to 2028-12-01 00:00:00
Funding: 
470292
Contact: 
bruno.sixou@insa-lyon.fr
Chapo: 
Are numerical simulations and deep learning useful to improve the study of blood flow with Flow MRI?

ESSENTIAL

Keywords: 
INSECTS
SYMBIOSIS
Investigating host and endosymbiont genetic hallmarks underlying rapid and contrasted phenotypIc diversification in cereal weevils
Project Leader: 
INSA Lyon
INSA’s scientific leader: 
Nicolas PARISOT

INSA Challenge: 
Santé Globale et Bioingénierie
Partners: 
UCBL
ENS LYON
United States Department of Agriculture, Agricultural Research Service
Funding Institution: 
ANR
Dates - Duration: 
2024-10-01 00:00:00 to 2028-12-01 00:00:00
Funding: 
632879
Contact: 
nicolas.parisot@insa-lyon.fr
Chapo: 
Study the diversity of cereal weevils and their bacterial partners for the development of innovative strategies to manage these pests.

CHAR-WPD

Keywords: 
ELECTRONIQUE DE PUISSANCE
SEMI-CONDUCTEURS A LARGE BANDE INTERDITE
CHARacterization of Wide band gap Power Devices
Project Leader: 
INSA Lyon
INSA’s scientific leader: 
Camille SONNEVILLE

The energy transition will require power electrical devices able to manage high voltages and high currents. Although today’s electronic converter’s market is dominated by silicon-based technology, these electronic devices have elevated intrinsic losses due to silicon physical limited properties. Thanks to their physical properties Wide-Band-Gap (WBG) semiconductors such as silicon carbides (SiC) or Gallium Nitride (GaN) or even Ultra Wide-Band Gap (UWBG) semiconductor such as diamond, Ga2O3 or AlN are particularly interesting for power electronic.

INSA Challenge: 
Energie pour un développement Durable
Funding Institution: 
ANR
Dates - Duration: 
2024-10-01 00:00:00 to 2028-06-01 00:00:00
Funding: 
253848
Contact: 
camille.sonneville@insa-lyon.fr
Chapo: 
Wide-band-gap and ultra-wide-band-gap semiconductors for power electronics: what role do defects play in electrical performance?

CLIPS

Keywords: 
OWC
SPAD
Chaîne LiFi Intégrée Ultra-Sensible avec Photorécepteur SPAD
Project Leader: 
OLEDCOMM
INSA’s scientific leader: 
Françis CALMON

Optical wireless communications (OWC) are high-speed and highly secure communication technologies that are developed to support radio frequency solutions, which face today the rapid growth of wireless data exchanges. OWC usually employ PIN or avalanche photodiodes for optical reception.

INSA Challenge: 
Information et Société Numérique
Partners: 
UNIVERSITE STRASBOURG - ICUBE
UNIVERSITE DE VERSSAILLES SAINT QUENTIN EN YVELINES - LISV
UNIVERSITE GRENOBLE ALPES
Funding Institution: 
ANR
Dates - Duration: 
2024-10-01 00:00:00 to 2028-12-01 00:00:00
Funding: 
647500
Contact: 
francis.calmon@insa-lyon.fr

LUMIERE

Keywords: 
LUBRIFICATION MIXTE
USURE
LUbrification MIxte Et usuRE
Project Leader: 
UNIVERSITE DE POITIERS
INSA’s scientific leader: 
Aurélien SAULOT

In the framework of reducing energy losses and of improving eco-efficiency, the Lumiere project aims to better understand and model the mechanisms governing the mixed lubrication regime with the objective of a more accurate estimate of the lifetime and friction losses of the lubricated components.

INSA Challenge: 
Energie pour un développement Durable
Partners: 
UNIVERSITÉ DE MONTPELLIER
Funding Institution: 
ANR
Dates - Duration: 
2023-10-01 00:00:00 to 2028-02-01 00:00:00
Funding: 
551027
Contact: 
aurelien.saulot@insa-lyon.fr
Chapo: 
Towards a model of the contacts in mixed lubrication for an optimized eco-efficiency

X-LOSM

Keywords: 
COUCHE MINCE
RELATIONS STRUCTURE-PROPRIETES
Miroirs à diffusion optique extrêmement faible
Project Leader: 
IP2I - LMA
INSA’s scientific leader: 
Karine MASENELLI-VARLOT

Le projet X-LOSM a pour objectif la production de nouveaux miroirs diélectriques à très faibles pertes optiques en vue de leur utilisation dans des expériences de pointe employant des cavités Fabry-Pérot.

INSA Challenge: 
Energie pour un développement Durable
Partners: 
INSTITUT FRESNEL
CNRS - LNCMI
Funding Institution: 
ANR
Dates - Duration: 
2023-10-01 00:00:00 to 2027-12-01 00:00:00
Funding: 
540492
Contact: 
karine.masenelli-varlot@insa-lyon.fr
Chapo: 
L'objectif du projet X-LOSM est d’étudier les défauts ponctuels dans les couches minces du traitement réfléchissant de miroirs optiques, pour réduire les pertes par diffusion

VORTEX

Keywords: 
ESSAIM DE DRONES
EXPLORATION
Vision-based Reconfigurable Drone Swarms for Fast Exploration
Project Leader: 
Olivier SIMONIN
INSA’s scientific leader: 
Olivier SIMONIN

The VORTEX project proposes a new approach for exploring unknown indoor environments using a fleet of autonomous drones (UAVs). We propose to define a strategy based on swarm intelligence exploiting only vision-based behaviors. The fleet will deploy as a dynamic graph self reconfiguring according to events and discovered areas. Without requiring any mapping or wireless communication, the drones will coordinate by mutual perception and communicate by visual signs. This approach will be developed with RGB and event cameras to achieve fast and low-energy navigation.

INSA Challenge: 
Energie pour un développement Durable
Partners: 
ENSTA (IP Paris)
LAB STICC
LS2N
ONERA
Funding Institution: 
ANR
Dates - Duration: 
2023-10-01 00:00:00 to 2028-03-01 00:00:00
Funding: 
697743
Contact: 
olivier.simonin@insa-lyon.fr
Chapo: 
The VORTEX project addresses the exploration of underground environments with a fleet of autonomous unmanned aerial vehicles (UAVs), combining swarm intelligence and vision-based behaviours, without the need for mapping or wireless communications.

MAESTRAFONE

Keywords: 
ARCHITECTURED MATERIALS
SOUNDBOARDS
Matériaux Architecturés et Structures Alternatives pour la Fabrication de cordophones
Project Leader: 
LAUM
INSA’s scientific leader: 
Kerem EGE

The increasing scarcity of certain types of wood traditionally used in the manufacture of musical instruments is forcing luthiers to change their practices. This problem is now affecting species such as spruce, the main wood used to make soundboards for cordophones. Faced with this situation, the MAeStrAFone project proposes new strategies to meet both the ecological and technological challenges: making soundboards differently, while guaranteeing equivalence for the musician.

INSA Challenge: 
Energie pour un développement Durable
Partners: 
PIMM
ITEMM
INSTITUT JEAN LE ROND D'ALEMBERT
Funding Institution: 
ANR
Dates - Duration: 
2023-10-01 00:00:00 to 2028-01-01 00:00:00
Funding: 
604607
Contact: 
kerem.ege@insa-lyon.fr
Chapo: 
The aim of the MAeStrAFone project is to propose new structures for cordophones’ soundboards, designed in architectural materials that encapsulate all the vibratory and acoustic functionalities of traditional structures

CARTHAGE

Keywords: 
SILICON CARBIDE (SIC)
THYRISTOR
Conception Avancée et Réalisation de Thyristors A Grande Energie
Project Leader: 
CEA-LETI
INSA’s scientific leader: 
Luong-Viet PHUNG

The civilian market for SiC (Silicon Carbide) power components has grown exponentially since the 2010s, thanks to the needs of the automotive and solar industries. The industrial offer is now mature for 1200 V and 1700 V SiC components, whether diodes or MOSFETs. However, as breakdown voltage increases, the supply on the market becomes increasingly scarce. This is due to the small size of the market and the technological difficulties still to be resolved. However, the SiC semiconductor is probably even more attractive at higher voltages (3.3 kV-10 kV) than Si (silicon) and SiC solutions.

INSA Challenge: 
Energie pour un développement Durable
Partners: 
IBS ION BEAM SERVICES
ISL-INSTITUT FRANCO ALLEMAND RECHERCHES SAINT LOUIS
DEEP CONCEPT
Funding Institution: 
ANR
Dates - Duration: 
2024-01-01 00:00:00 to 2026-06-01 00:00:00
Funding: 
507650
Contact: 
luong-viet.phung@insa-lyon.fr
Chapo: 
With no research group in Europe focusing on silicon carbide thyristors for very high current applications, the CARTHAGE project is an opportunity to transform concepts previously developed by ISL and Ampère into a semi-industrial product using a stable, repeatable manufacturing process controlled in the CEA-Leti cleanroom

CAGE

Keywords: 
BIOAGRESSOR
GENETIC PROGRAMS REGULATION
Architecture du chromosome et expression génique chez les bactéries
Project Leader: 
INSA LYON-MAP
INSA’s scientific leader: 
William NASSER

Bacterial adaptation to environmental changes requires a rapid reorganization of expression pattern of their genome. This adaptive response, which is critical for both bacterial survival and pathogenicity, is mediated by specific transcription factors, DNA supercoiling and global regulators represented by abundant nucleoid-associated-proteins (NAPs), which constrain supercoils and modulate both the chromatin structure and the transcription of numerous genes.

INSA Challenge: 
Santé Globale et Bioingénierie
Partners: 
INSTITUT PASTEUR-UNITE REGULATION SPATIALE DES GENOMES
Funding Institution: 
ANR
Dates - Duration: 
2023-10-01 00:00:00 to 2026-09-01 00:00:00
Funding: 
513417
Contact: 
william.nasser@insa-lyon.fr
Chapo: 
Role of the spatial organization of the genome in the control of bacterial infection

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