Mathematics, information and communication sciences (MSTIC)

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MathAlp: from basic research to applications / Cyberphysical systems / Data science / Perception, interactions, uses.
This research department deals with mathematics, information and communication sciences and technologies (computer science, automatic, signal processing), from basic research to applications.

Strategic axis

MathAlp: From the most fundamental aspects of mathematics to all kinds of applications

This capacity is key now that new mathematical concepts and techniques are required to face issues of growing complexity. The objective is to improve the visibility of UGA’s mathematicians, with an ambitious strategy in research and education.

Cyberphysical systems

Federating skills for ambitious projects, in the wake of Persyval-Lab and together with industrial partners, in particular Minalogic. Activities are structured along the following lines:
(a) high-level properties verified by specialists; (b) major applications; (c) basic tools and practices in computer science and mathematics to be implemented or developed for designing and creating cyberphysical systems.

Activities are structured along the following lines:
  1. high-level properties verified by specialists
  2. major applications
  3. basic tools and practices in computer science and mathematics to be implemented or developed for designing and creating cyberphysical systems

Data science

Study of models and methods (physical, mathematical, statistical, computational…) to extract information and knowledge from data. Such models and methods are required to answer questions and develop applications in such domains as environmental sciences, sciences of the universe, life sciences, humanity and social sciences, monitoring, the Internet, communication networks…

Perception, interactions, uses

Designing and developing useful, ergonomic and friendly interaction systems, fit to human interaction modes and contexts. The keywords related to this axis are: human and artificial perception, cyberphysical human-system interaction and uses. More generally, this axis deals with designing, developing and using digital systems for a human environment.

Partners

Laboratories

GIPSA-Lab Grenoble Images Parole Signal Automatique
G-SCOP Laboratoire des Sciences pour la Conception, l'Optimisation et la Production de Grenoble
ICA Informatique et Création Artistique
IF Institut Fourier
LAMA Laboratoire de mathématiques
LCIS Laboratoire de Conception et d'Intégration des Systèmes
LIG Laboratoire d’Informatique de Grenoble
LISTIC Laboratoire d'Informatique, Systèmes, Traitement de l'Information et de la Connaissance
LJK Laboratoire Jean Kuntzmann
TIMA Techniques de l'Informatique et de la Microélectronique pour l'Architecture des systèmes intégrés
TIMC-IMAG Techniques de l'Ingénierie Médicale et de la Complexité - Informatique, Mathématiques et Applications
VERIMAG Laboratoire VERIMAG - Systèmes embarqués

Labex

  • AMIES
    Promoting mathematics in companies
  • CAMI
    Pushing the boundaries of surgery
  • PERSYVAL-Lab
    The physical and digital worlds come together

Schools and training structures

Others

  • FED MaiMoSINE
    House of Modeling and Digital mock-up, Nano-sciences and Environment
  • FED MAM
    Math to Model
  • FR Pôle Grenoble Cognition
    Federation of Research in cognitive sciences
  • Institut Carnot LSI
    Intelligent Systems and Softwares
  • UMI IPAL
    Image and Pervasive Access Lab
  • UMI LAFMIA
    French-Mexican Mixt laboratory of Applied Computing and Automatics
  • UMS AMIES
    Agency for mathematics in cooperation with firms and society
  • UMS CMP
    Multi-projets wafer service organization
  • UMS GRICAD
    Grenoble Alpes research - scientific computing and data infrastructure
  • Mathdoc
    Unit of national documentary coordination for maths
Published on  February 6, 2020
Updated onFebruary 9, 2021