Submitted by lgaillard1 on Tue, 06/05/2018 - 08:07
Keywords:
FLUORESCENCE
FLUREOSCENCE-GUIDED SURGERY
COMPRESSIVE IMAGING
HYPERSPECTRAL IMAGING
IMAGERIE INTERVENTIONNELLE
RESEAU DE NEURONES ARTIFICIELS
Acquisition Rapide d'images biomédicales par caméra MONo-pIxel
Project Leader:
INSA LYON - CREATIS
INSA’s scientific leader:
Nicolas DUCROS (CREATIS)
Recent advances in signal processing have made it possible to design new digital imaging systems. Single-pixel imaging is a new paradigm that enables two-dimensional imaging from a point detector. It has raised increasing attention because it allows high-performance optical imaging systems (e.g., hyperspectral and/or time-of-flight measurements) at very low cost.
Submitted by lgaillard1 on Mon, 06/04/2018 - 16:06
Keywords:
ECG DENOISING TECHNIQUES
LONG-TERM WEARABLE SENSORS
Wrist and Arm Sensing Technologies for Cardiac Arrhythmias Detection in Long Term Monitoring
Project Leader:
UNIVERSITY OF ULSTER
INSA’s scientific leader:
Eric MCADAMS (INL)
Abnormal heart rhythms are a major cause of cardiovascular disease and death in Europe. Sudden cardiac death accounts for 50% of cardiac mortality in developed countries; ventricular tachycardia or ventricular fibrillation is the commonest underlying arrhythmia.
Submitted by Corinne Iafrate-Gran on Tue, 03/20/2018 - 08:00
Keywords:
EXTREME ENVIRONMENTS
MEMBRANE ADAPTATION
Des bicouches lipidiques stables au-delà du point d'ébullition de l'eau
Project Leader:
INSA LYON - MAP
INSA’s scientific leader:
Philippe OGER
Two major structural adaptations have been linked with the adaptation of the membrane to extreme pH and temperature environments: the synthesis of membrane-spanning, bipolar lipids and the binding of the glycerol moiety and the hydrocarbon chains by an ether bound. Bipolar lipids can form lipid monolayers, in which each polar headgroup points out on one side of the membrane. Monolayers are more rigid, less permeable and thermally more resistant than lipid bilayers.
Submitted by Corinne Iafrate-Gran on Wed, 03/14/2018 - 15:22
Keywords:
BIO IMAGERIE MULTI MODALE
NANOMATERIAUX DE CARBONE
THERAPIE DE CANCER
Nanomatériaux à base de carbone pour l'application théranostique
Project Leader:
INSA LYON - INL
INSA’s scientific leader:
Vladimir LYSENKO
Notre projet vise à mener une étude interdisciplinaire systématique des nanomatériaux à base de carbone, tels que: les nanoparticules de fluoroxyde de carbone, nanotubes de carbone, graphène et nanodiamants pour une application théranostique avancée.