1 / 25

Teaching methods

BioMedical Engineering Technische Universiteit Eindhoven in collaboration with Universiteit Maastricht. The first and only 5-year BME programme in Europe leading to a Master degree, starting from the freshman year start: 1997. Teaching methods. Courses Design Centred Learning (DCL).

sage-finch
Télécharger la présentation

Teaching methods

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. BioMedical EngineeringTechnische Universiteit Eindhoven in collaboration with Universiteit Maastricht

  2. The first and only 5-year BME programme in Europe leading to a Master degree, starting from the freshman yearstart: 1997

  3. Teachingmethods Courses Design Centred Learning (DCL)

  4. Teachingmethods Courses Design Centred Learning (DCL)

  5. Structure of the programme

  6. Autumn: Courses Calculus Mechanics Chemistry Biological Systems DCL: 4 Case Studies Programme first year

  7. Winter: Courses Linear Algebra Dynamical Systems Biochemistry Measurements on Biological Systems DCL: 4 Case Studies Programme first year

  8. Spring: Courses Multivariate Analysis Fundamentals of Transport Processes Control Theory Materials Science DCL: 4 Case Studies Programme first year

  9. Autumn: Courses Statistics Informatics and Visualisation Continuum Mechanics The Living Cell DCL: 4 Case Studies Programme second year

  10. Winter: Courses Optics Dynamics Thermodynamics Mechanical Properties of Biological Tissues DCL: 4 Case Studies Programme second year

  11. Spring: Courses Control Systems Electromagnetism Energy Metabolism Fluid Mechanics and Diffusion DCL: 4 Case Studies Programme second year

  12. Autumn: Courses Numerical Analysis of Continuous Systems Molecular Engineering Signal Theory Homeostasis DCL: 2 Projects Programme third year

  13. Winter: 4 out of 5 Courses Data Modelling and Processing Biomolecular Engineering Molecular Simulations Bioelectricity Imaging DCL: 2 Projects Programme third year

  14. Spring: Skillslabs Characterization of Mechanical Material Properties Characterization of Chemical Material Properties Measurements in a Clinical/Biological Environment Optical Measurement Methods Computer Simulations Programme third year

  15. Autumn: Courses 4 elective courses DCL Multidisciplinary project Programme fourth year

  16. Winter: Courses 4 elective courses DCL Internal traineeship Programme fourth year

  17. Spring: DCL External traineeship (abroad) Programme fourth year

  18. Autumn, winter and spring: DCL Final Project Programme fifth year

  19. I. Tissue mechanics Soft Tissue Mechanics Impact Mechanics Cardiovascular Mechanics Bone Mechanics Cell Mechanics Fields of Research

  20. II. Molecular Engineering Biomaterials and Biochemistry Molecular Engineering Molecular Pharmacology Vascular Biology Fields of Research

  21. III. Functional Imaging MR Imaging Clinical Imaging Vital Imaging Image Analyses Fields of Research

  22. IV. Metabolism Energy Metabolism Skeletal Muscle Function Fields of Research

  23. V. Cardiovascular modelling Heart Mechanics Cell Metabolism Fields of Research

  24. VI. Bio-Computing Large Scale Computing Biocontrol and Signal Analysis Fields of Research

More Related