In this paper, we proposed a new algorithm, referred to as inverse function analysis (IFA) method based on the derived mathematical model to reconstruct 3-D surfaces using fringe pattern profilometry (FPP) technique. Compared with traditional methods, our algorithm has neither the requirement for the structure of projected fringe patterns, nor the prior knowledge of the characteristics of projection systems. The correctness of inverse function analysis (IFA) method has been confirmed by simulation results. It can be seen that the measurement accuracy has been significantly improved by inverse function analysis (IFA) method, especially when the expected sinusoidal fringe patterns are distorted by unknown nonlinear factors.
History
Citation
This article was originally published as: Hu, Y, Xi, J, Li, E, Chicharo, J & Yang, Z, Fringe pattern profilometry based on inverse function analysis, Proceedings of 2005 International Symposium on Intelligent Signal Processing and Communication Systems (ISPACS 2005), 13-16 December 2005, 61-64. Copyright IEEE 2005.
Parent title
Proceedings of 2005 International Symposium on Intelligent Signal Processing and Communication Systems, ISPACS 2005