Coded Optical Imaging, 1st ed. 2024

This book provides a comprehensive survey of coded optical imaging. Illustrated with 386 figures, it takes readers from the fundamental concepts and theories to the latest research and applications in this field. It can be used in graduate-level courses in optics and photonics. It can also benefit scientists and engineers in optical imaging, computer graphics, and other related disciplines.

·         Optical signal encoding

·         Compressed sensing

·         Artificial intelligence

·         Lensless imaging

·         Holography

·         Tomography

·         Hyperspectral imaging

Part I Fundamentals     

Chapter 1         A brief history / Introduction

Chapter 2         Encoding optical signals in image acquisition

Chapter 3         Convex optimization for image reconstruction

Chapter 4         Machine learning for coded optical imaging

Chapter 5         Single-pixel imaging / Computational ghost imaging     

Chapter 6         Diffractive neural network       

Chapter 8         Coded-aperture ptychography  

Chapter 9         Spatial frequency domain imaging        

Chapter 10       Wavefront encoding    

Part III Depth imaging 

Chapter 11       Fringe projection profilometry

Chapter 12       Stripe / Grid indexing-based profilometry

Chapter 13       Amplitude-modulated continuous wave (AMCW) time-of-

flight (ToF) range imaging

Chapter 14       Lensless 3D imaging

Chapter 15       Coded-aperture diffraction optical tomography  

Chapter 16       PSF engineering for 3D super-resolution microscopy     

Chapter 17       Multi-shot coded aperture light field imaging using SLMs

Chapter 18       Light field background oriented Schlieren (LF-BOS)

photography    

Chapter 19       Light-filed imaging using a static color-coded aperture

Chapter 20       Light-field imaging with structured illumination

Part V Temporal imaging         

Chapter 21       Compressive sensing multi-aperture CMOS camera       

Chapter 22       Shuffled rolling shutter camera

Chapter 23       Compressed ultrafast photography        

Chapter 24       Coded-aperture ultrahigh-speed imaging using CCD

Chapter 25       Coded time-stretching imaging 

Chapter 26       Multiplexed Structured Image Capture (MUSIC)

Chapter 27       Sampling streak camera

Part VI Spectral imaging          

Chapter 29       Spatial frequency multiplexing in spectroscopy 

Chapter 30       Multi-aperture snapshot compressive hyperspectral camera        

Chapter 32       Encoded diffractive optics for hyperspectral imaging     

Part VII Polarization imaging   

Chapter 33       Bio-inspired camera

Chapter 34       Full-Stokes Polarimetric Imaging using metasurface      

Chapter 35       Polarization structured illumination microscopy (pSIM) 

Chapter 36       Optical image encryption using polarization encoding    

Jinyang Liang is an Associate Professor and Director of Laboratory and Applied Computational Imaging at the Institut National de la Recherche Scientifique (INRS), Université du Québec. He holds the Canada Research Chair of Ultrafast Computational Imaging (Tier ll). His research focuses on the development of new computational imaging systems and their applications in advanced manufacturing, materials science, and biomedicine. He is a Senior Member of Optica and SPIE. He has received many awards, including the 2019 Young Scientist Prize from the International Union of Pure and Applied Physics (IUPAP) and the 2017 Educational Award–Gold from Edmund Optics.

The first comprehensive survey in coded optical imaging

Brings together the latest research and applications in coded optical imaging

Features both hardware innovations and software advances