• Passer à la navigation principale
  • Passer au contenu principal
  • Passer à la barre latérale principale
  • Passer au pied de page
  • TW
  • YT
  • FAQ
  • Contact

M-Cube

MetaMaterials antenna for ultra-high field Mri

MetaMaterials antenna
for ultra-high field Mri
  • The Project
  • Partners
  • Publications
    • Scientific Articles
    • Open Data
    • HAL
  • Press release
  • Events
  • Jobs
  • Videos
Accueil › Open Data › M-CUBE DATA MANAGEMENT PLAN

M-CUBE DATA MANAGEMENT PLAN

janvier 1, 2021

The data generated by the M-CUBE project are related to the collection, characterization and standardization of calculation codes for measurements, creation of antennas and to produce various kinds of improved MRI images.
The data will be collected through web interfaces on the intranet website of the project and will serve to build up a web-based catalogue (the M-CUBE repository) accessible on the M-CUBE public website. Hence, it will help disseminating worldwide data generated through the project.

Upload M-CUBE DATA MANAGEMENT PLAN (Deliverable 8.6 – 28/08/2017)

Calculation Codes & Modelisation Results
The links below contain archive files (.zip) with readme files indicating contents description.

  • Biot_Savart analytical Hfield maps – Source codes to perform H-field maps calculations on birdcage, loop and dipole. (Format: MATLAB)
  • Birdcage analytical design – Source codes and documentation about birdcage resonant frequency calculations. (Format: MATLAB, PDF)
  • Impedance Matrix and S parameters – Source codes to perform impedance matrix analysis and S parameter analytical calculation for closely spaced dipole decoupling with metasurface. (Format: MATLAB, PNG)

3D Antenna Models & Simulation Results
The links below contain archive files (.zip) with readme files indicating contents description.

  • 3D antenna models: 3D models are available for three coil setup birdcage, loop and straight dipole (Format: CST 2019). The simulation results directory is included to the same archive. It contains S-parameters and H-field maps of the three antenna models in ASCII format (Format: TXT).

The concept of Metacage. It consists of volume antenna to probe B1 field of MRI. This concept is introduced in Applied Physics Letters.
You can find Open Data related to this project on Institut Langevin – CNRS website

  • 2D simulations of volume antennas (Gmsh code)
  • Matrix estimation of the capacitive/inductive elements of a metacage (Python code)
  • Single port open-cage optimization (Python code / S-parameter)
  • Opencage for small animal (S-parameter / image code…)
  • Opencage for head (soon)

Download all our Public Reports on European Commission H2020 Results platform

D8.1  Deliverable “Version of M- Cube Website online and Communication materials”

janvier 1, 2021

Barre latérale principale

Twitter

Tweets by MCUBE19

Last video

H2020 FET Project M-Cube Final review - Metamaterials Antenna for Ultra-High Field MRI
  • « prec.
  • 1
  • 2
  • 3
  • suiv. »
H2020 FET Project M-Cube Final review - Metamaterials Antenna for Ultra-High Field MRI
Titre
H2020 FET Project M-Cube Final review - Metamaterials Antenna for Ultra-High Field MRI
Runtime
3:11
Date de publication
Jul 30, 2021
Description
A look back at the four years of the M-CUBE project (2017-2021). The videos and ...
European Project M-CUBE
Titre
European Project M-CUBE
Runtime
4:06
Date de publication
Mar 9, 2021
Description
Le projet de recherche M-CUBE est un FET-Open financé par la Commission Europé...
Interview Denis Tihon Ph.D.
Titre
Interview Denis Tihon Ph.D.
Runtime
1:08
Date de publication
Mar 5, 2021
Description
Presentation of Denis TIHON, PhD, Teaching assistant in Université Catholique d...
M-CUBE project - with DANISH subtitles -  MetaMaterials antenna for ultra-high field MRI
Titre
M-CUBE project - with DANISH subtitles - MetaMaterials antenna for ultra-high field MRI
Runtime
2:00
Date de publication
Sep 26, 2019
Description
M-Cube project, entitled “MetaMaterials antenna for ultra-high field MRI” is...
Proyecto M-CUBE - Antena de MetaMaterial para la IRM (English with SPANISH subtitles)
Titre
Proyecto M-CUBE - Antena de MetaMaterial para la IRM (English with SPANISH subtitles)
Runtime
2:00
Date de publication
Sep 26, 2019
Description
Este video de 2 min es accesible a todo publico y es destinado a la difusión ci...
M-CUBE project - with FINNISH subtitles -  MetaMaterials antenna for ultra-high field MRI
Titre
M-CUBE project - with FINNISH subtitles - MetaMaterials antenna for ultra-high field MRI
Runtime
2:00
Date de publication
Sep 26, 2019
Description
M-Cube project, entitled “MetaMaterials antenna for ultra-high field MRI” is...
Проект MCube  - Антенны на основе метаматериалов для сверхвысокопольной МРТ. (Russian subtitles)
Titre
Проект MCube - Антенны на основе метаматериалов для сверхвысокопольной МРТ. (Russian subtitles)
Runtime
2:00
Date de publication
Sep 26, 2019
Description
Проект MCube, под названием "Антенны на основе ...
M-CUBE project - with ENGLISH subtitles - MetaMaterials antenna for ultra-high field MRI
Titre
M-CUBE project - with ENGLISH subtitles - MetaMaterials antenna for ultra-high field MRI
Runtime
2:00
Date de publication
Sep 26, 2019
Description
M-Cube project, entitled “MetaMaterials antenna for ultra-high field MRI” is...
M-CUBE Project - with DUTCH subtitles - MetaMaterials antenna for ultra-high field MRI
Titre
M-CUBE Project - with DUTCH subtitles - MetaMaterials antenna for ultra-high field MRI
Runtime
2:00
Date de publication
Sep 26, 2019
Description
M-Cube project, entitled “MetaMaterials antenna for ultra-high field MRI” is...
M-CUBE sous-titrée en FRANÇAIS - Méta-matériaux pour les antennes IRM haut-champ et ultra-haut champ
Titre
M-CUBE sous-titrée en FRANÇAIS - Méta-matériaux pour les antennes IRM haut-champ et ultra-haut champ
Runtime
2:00
Date de publication
Sep 26, 2019
Description
Le projet M-Cube pour “MetaMaterials antenna for ultra-high field MRI” est l...

Footer

  • Contact
  • FAQ
  • Legal Notice
  • Credits
This project has received funding from the European Union's Horizon 2020 research and innovation programme under grant agreement No 736937