论文信息 - Embedded 3D shape measurement system based on a novel spatio-temporal coding method

Embedded 3D shape measurement system based on a novel spatio-temporal coding method

Structured light measurement has been wildly used since 1970s in industrial component detection, reverse engineering, 3D molding, robot navigation, medical and many other fields. In order to satisfy the demand for high speed, high precision and high resolution 3-D measurement for embedded system, a new patterns combining binary and gray coding principle in space are designed and projected onto the object surface orderly. Each pixel corresponds to the designed sequence of gray values in time – domain, which is treated as a feature vector. The unique gray vector is then dimensionally reduced to a scalar which could be used as characteristic information for binocular matching. In this method, the number of projected structured light patterns is reduced, and the time-consuming phase unwrapping in traditional phase shift methods is avoided. This algorithm is eventually implemented on DM3730 embedded system for 3-D measuring, which consists of an ARM and a DSP core and has a strong capability of digital signal processing. Experimental results demonstrated the feasibility of the proposed method.

Bin Xu | Dong Li | Yong Tian | Jindong Tian

[1] Shaohui Li,et al. Three-dimensional shape measurement of a highly reflected, specular surface with structured light method. , 2012, Applied optics.

[2] Konstantinos Falaggis,et al. Method of excess fractions with application to absolute distance metrology: theoretical analysis. , 2011, Applied optics.

[3] Nahum Kiryati,et al. Toward optimal structured light patterns , 1999, Image Vis. Comput..

[4] G. G. Stokes. "J." , 1890, The New Yale Book of Quotations.

[5] Giovanna Sansoni,et al. State-of-The-Art and Applications of 3D Imaging Sensors in Industry, Cultural Heritage, Medicine, and Criminal Investigation , 2009, Sensors.

[6] Joaquim Salvi,et al. Pattern codification strategies in structured light systems , 2004, Pattern Recognit..

[7] Cecil F. Hess,et al. Reverse engineering by fringe projection , 2002, SPIE Optics + Photonics.

[8] J C Wyant,et al. Testing aspherics using two-wavelength holography. , 1971, Applied optics.

[9] Jason Geng,et al. Structured-light 3D surface imaging: a tutorial , 2011 .

[10] C. Tilford. Analytical procedure for determining lengths from fractional fringes. , 1977, Applied optics.

[11] François Blais. Review of 20 years of range sensor development , 2004, J. Electronic Imaging.

[12] P. Groot. Extending the unambiguous range of two-color interferometers , 1994 .