Module ME4185-KP04

Duration

1 Semester

Turnus of offer

each winter semester

Credit points

4

Course of studies, specific fields and terms:

• Master MES 2020, optional subject, medical engineering science
• Master MES 2014, optional subject, medical engineering science

Classes and lectures:

• Computational Optical Imaging (exercise, 1 SWS)
• Computational Optical Imaging (lecture, 2 SWS)

Workload:

• 45 hours in-classroom work
• 75 hours Self-study and group exercises

Contents of teaching:

• Introduction
• The physics of optics
• Fourier optics, Coherence
• Incoherent imaging
• Coherent imaging
• Statistical optics
• Digital holography, OCT, holoscopy
• Confocal imaging, deconvolution, super-resolution
• Light field photography
• Imaging with synthetic apertures
• Coded aperture imaging
• Compressed sensing, sparse sampling
• Ptychography
• Optical tomography (SLOT, ODT)
• Imaging by wavefront control
• Quantum imaging

Qualification-goals/Competencies:

• The students have knowledge of the basics of optics.
• They can describe complex optical problems mathematically and solve numerically.
• Students will assess pros and cons of different optical imaging technologies and can assign reasonable applications.
• They have knowledge of modern techniques of computational optical imaging.
• Students can present and advocate own solution of optical problems.
• They can present complex facts in a compact and comprehensible manner, orally and in writing.
• They can develop procedures and software for selected problems in computational optical imaging in a team.
• They are gaining research grade expertise in a selected field of computational optical imaging.

Grading through:

• exercises and project assignments

Requires:

• Moderne Techniken der biomedizinischen Optik 1 (UngenutztME4100)

Responsible for this module:

• Prof. Dr. rer. nat. Gereon Hüttmann

Teacher:

• Institute of Biomedical Optics
• Prof. Dr. rer. nat. Gereon Hüttmann

Literature:

• J. W. Goodman : Introduction to Fourier optics Roberts & Co. Publishers, USA
• B. E. A. Saleh, and M. C. Teich : Fundamentals of Photonics John Wiley & Sons, USA
• M. Born, and E. Wolf : Principles of Optics Cambridge University Press, UK
• W. Lauterborn, and T. Kurz : Coherent Optics Springer, Germany
• J. W. Goodman : Speckle Phenomena in Optics Roberts & Co. Publishers, USA
• Additional literature : will be provided at the begin of the lecture

Language:

• English, except in case of only German-speaking participants

Notes:

Last Updated:

15.08.2022