2nd Edition
High-Speed 3D Imaging with Digital Fringe Projection Techniques
1. Introduction. 2. Theoretical foundation of fringe analysis techniques. 3. Digital fringe generation technique. 4. Spatial phase unwrapping algorithm for real-time applications. 5. Temporal phase unwrapping. 6. Special absolute phase unwrapping. 7. Global digital fringe projection system calibration. 8. Pixel-wise digital fringe projection system calibration. 9. Calibration method for digital fringe projection system with electrically tunable lenses. 10. Auto-exposure for 3D imaging. 11. Autofocus for 3D imaging with electrically tunable lenses. 12. Large depth of field 3D imaging using electrically tunable lenses. 13. Projector nonlinear gamma calibration and correction. 14. Binary defocusing for high-speed 3D imaging. 15. Hands-on examples of system design and development. 16. Current trends and future perspectives.
Biography
Song Zhang earned his BS from the University of Science and Technology of China and his MS and PhD in Mechanical Engineering from Stony Brook University. He then spent three years in the Mathematics Department at Harvard University. He is currently a Professor of Mechanical Engineering at Purdue University. A highly cited and decorated fellow of ASME, Optica, and SPIE, Professor Zhang is often credited with developing the first-ever high-resolution, real-time 3D optical imaging system.
