Computational Optical Imaging MICRO-421
Modern optical imaging systems combine traditional optical devices (lenses, endoscopes, cameras, laser scanners, etc) with digital computers. Computer are used to enhance or interpret the optical images. In addition, computers adapt the optical system in order to achieve desired functionality (for example autofocus). In this course we will learn how to use computational tools to simulate the optical system and combine them with neural networks that process the optical images.
Topics
1. Optical wave propagation
Free space propagation
Beam propagation computational method
Thin transparencies-Lenses and gratings
Imaging
Digital Holography
Computer Generated Holograms
2. Multi-layer networks
3. Microscopy with Deep Neural Networks (DNNs)
DNN- Unet superresolution
DNN - Unet digital staining
DNN - Phase from Intensity
4. Scattering media
Phase conjugation
Matrix method
DNN for focusing and imaging through MMFs
Ptychography
5. Inverse scattering
Optical diffraction tomography
Inverst scattering-MaxwellNet
- Professor: Demetri Psaltis
- Teacher: Zahra Basiri
- Teacher: Niyazi Ulas Dinç
- Teacher: Carlo Gigli
- Teacher: Felix Wechsler
