Abstract
The high-speed three-dimensional (3-D) shape measurement technique has become more and more popular recently, because of the strong demand for dynamic scene measurement. The single-shot nature of Fourier Transform Profilometry (FTP) makes it highly suitable for the 3-D shape measurement of dynamic scenes. However, due to the band-pass filter, FTP method has limitations for measuring objects with sharp edges, abrupt change or non-uniform reflectivity. In this paper, an improved Temporal Fourier Transform Profilometry (TFTP) algorithm combined with the 3-D phase unwrapping algorithm based on a reference plane is presented, and the measurement of one deformed fringe pattern producing a new 3-D shape of an isolated abrupt objects has been achieved. Improved TFTP method avoids band-pass filter in spatial domain and unwraps 3-D phase distribution along the temporal axis based on the reference plane. The high-frequency information of the measured object can be well preserved, and each pixel is processed separately. Experiments verify that our method can be well applied to a dynamic 3-D shape measurement with isolated, sharp edges or abrupt change. A high-speed and low-cost structured light pattern sequence projection has also been presented, it is capable of projection frequencies in the kHz level. Using the proposed 3-D shape measurement algorithm with the self-made mechanical projector, we demonstrated dynamic 3-D reconstruction with a rate of 297 Hz, which is mainly limited by the speed of the camera.
Highlights
Optical non-contact three-dimensional (3-D) shape measurement technique has been widely used in science, industrial applications and our daily life, due to its high resolution, high-speed, and high flexibility
According to the different approaches of phase retrieval, fringe projection profilometry can be divided into Phase Measurement Profilometry (PMP) [3,4,5,6], Fourier
Temporal Fourier Transform Profilometry (TFTP) does not filter in the spatial domain but in the temporal domain, avoiding the spectral overlapping caused by the information loss of some pixels in the spatial domain and the smoothing effect of spatial Fourier regarding steep objects
Summary
Optical non-contact three-dimensional (3-D) shape measurement technique has been widely used in science, industrial applications and our daily life, due to its high resolution, high-speed, and high flexibility. Fringe projection profilometry approaches have proven to be the most promising techniques [1,2]. According to the different approaches of phase retrieval, fringe projection profilometry can be divided into Phase Measurement Profilometry (PMP) [3,4,5,6], Fourier. Transform Profilometry (WFTP) [11], and so on These fringe projection techniques extract the phase corresponding to the object’s height by employing an arctangent calculation. Only a single wrapped phase map is employed and the unwrapped phase of a measured object is derived.
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