Computational Optical Sensing and Imaging (COSI)

Computational sensing and imaging are processes that tightly combine optics, sensing, and processing to acquire task relevant information. 

​Popular Topics (in alphabetical order)

1. Applications of Computational Sensing and Imaging
2. Compressive Sensing
3. Computational Adaptive Optics
4. Computational Imaging for Point-of-Care Applications
5. Computational Microscopy (including Ptychography), Digital Holographic Microscopy
6. Computational Spectroscopy and Spectral Imaging
7. Computational Techniques for Imaging through Scattering and Turbid Media
8. Computational Techniques for Super-Resolution Imaging
9. Differentiable Optics (and its Applications to Wave Propagation and Optical Design)
10. Fundamental Limits of Computational Optical Sensing and Imaging
11. Inverse Problems in Imaging
12. Joint Design Examples
13. Lensless Imaging, Coherent Diffraction Imaging
14. Multiple Aperture and Coded Aperture Imaging
15. Novel Applications of Holography
16. Phase Retrieval and its Applications
17. SAR, InSAR, Terahertz- and mm-Wave Imaging
18. Sparse Imaging
19. Tomographic Imaging
20. Topics in 3D Imaging (Structured Illumination, ToF Sensing, LiDAR, Light Fields)
21. Unconventional Imaging Modalities (Intensity Interferometry, Ghost Imaging and Mutual Intensity Imaging)

Topics of Special Interest (in alphabetical order)

1. Computer Generated Holography and Computational Displays for AR/VR 
2. Event-Driven Computational Imaging using Neuromorphic Sensors 
3. Non-Line-of-Sight Imaging 
4. Physics Aware Deep Learning as Applied to Computational Sensing
5. Quantum Imaging
6. Single-Photon Imaging