Sort by
Refine Your Search
-
Listed
-
Category
-
Program
-
Employer
-
Field
-
as well as medical image analysis . The iBV is supported by the University Côte d’Azur, the CNRS and the Inserm. It is affiliated to the School of Life & Health Sciences (EUR Life ) and participates
-
friction models. Integrating Experimental Data: Collaborate with experimental teams to incorporate data from calcium imaging, confocal microscopy, and high-resolution video recordings. Use experimental data
-
analysis of immune cells infiltrating tumors, – to implement spatial transcriptomics of the tumor microenvironment (VISIUM HD, Merscope, e.g.), – to explore new avenues to integrate high dimensional imaging
-
: micromagnetic simulation, conversion of theoretical data into experimental contrast and acquisition of experimental images. The work will be carried out by three teams: theory/simulation, spin textures within
-
infrastructure-free sensing paradigm enables the capture of acoustic scenes over distances exceeding 100 km, with meter-level spatial resolution and millisecond-scale temporal precision. However, the real-time
-
. Collaborate with people with diabetes, diabetologists, software engineers, and clinical psychologists to develop and validate prototype tools. Contribute to qualitative and mixed-methods research to ensure user
-
rodent studies—obtained by electrophysiology, fiber photometry, and calcium imaging in vivo recordings—the project will build a biologically grounded SNN model of memory de-association. The ultimate goal
-
Description of the offer : During this PhD thesis, we propose to explore the properties of exotic antiferromagnetism, in non-collinear antiferromagnets like Mn3Sn or in altermagnets. We will image
-
Context. The initial great promise of 3D geometric modeling and processing was to achieve for shapes what had been done in digital signal processing for sound and images. Over the last twenty years
-
mechanoelectrical feedback, it requires specific tools to uncouple them and to decode the transformation of complex acoustic stimuli by the brain. In the lab, we are developing electrophysiological and imaging