Basic Imaging Concepts:
Introduction to generic imaging concepts and physical imaging methods covering the most central aspects across all imaging modalities, including 1) the concept of Fourier imaging, 2) tomography (Radon-Transformation, central slice theorem), 3) the system theory of imaging systems, and 4) issues of image quality (point-spread function, modulation transfer function, spatial resolution, contrast, noise). During the course different advanced methods for image acquisition will be covered and a comprehensive overview of modern imaging modalities in biomedicine, material science and astrophysics will be given.
Introduction to generic imaging concepts and physical imaging methods covering the most central aspects across all imaging modalities, including 1) the concept of Fourier imaging, 2) tomography (Radon-Transformation, central slice theorem), 3) the system theory of imaging systems, and 4) issues of image quality (point-spread function, modulation transfer function, spatial resolution, contrast, noise). During the course different advanced methods for image acquisition will be covered and a comprehensive overview of modern imaging modalities in biomedicine, material science and astrophysics will be given.
- Dozent: Sara Buson
- Dozent: Daniela Dorner
- Dozent: Theobald Fuchs
- Dozent: Bert Hecht
- Dozent: Peter Jakob
- Dozent: Johannes Tran-Gia
- Dozent: Simon Zabler