Three-dimensional scanning and digital fringe-projection technology

Clave: 17A7501


No. de horas: 72


Créditos: 5


Tipo de asignatura: Optativa


Fecha de elaboración: 2016-10-31



Objetivo general:


Provide students with the theoretical concepts, computational algorithms, optical setups, and system calibration methods for three-dimensional surface scanning by non-contact digital fringe projection technology.


Temas:


1. Introduction                                          

2. Fringe patterns and phase demodulation                                          

3. Calibration methods                      

4. Applications


Bibliografía:


[1]   Zanuttigh, P., Marin G., Dal Mutto, C., Dominio, F., Minto, L., Cortelazzo, G.M., Time-of-Flight and Structured Light Depth Cameras. Technology and Applications, Springer, 2016.
[2]   Nick Pears, Yonghuai Liu and Peter Bunting (Eds), 3D Imaging, Analysis and Applications, Spinger London, 2012.
[3]   Wolfang Förstner Bernhard P. Wrobel, Photogrammetric Computer Vision. Statistics, Geometry, Orientation and Reconstruction, Springer 2016.
[4]   Richard Szeliski, Computer Vision: Algorithms and Applications, Springer-Verlag London Limited, 2011.
[5]   David Zhang Guangming Lu, 3D Biometrics. Systems  and Applications, Springer, 2013.
[6]   David Zhang Guangming Lu and Lei Zhang, Advanced Biometrics, Springer, 2018.
[7]   Jason Geng, “Structured-light 3D surface Imaging: a tutorial” Advances in Optics and Photonics 3(2), 128-160, 2011.
[8]   R. Juarez-Salazar and V. H. Díaz-Ramírez, “Operator-based homogeneous coordinates: application in camera document scanning” Optical Engineering, 56(7), 070801, 2017.