Research
▼ 3D Measurement / Automated Visual Inspection
Self-Projected Structured Light Method for Fast Depth-Based Image Inspection
This research presents a self-projected structured light depth measurement system that can simultaneously inspect depth images at a high speed even when there are large height differences in the measured scene.
In our method, different shapes are acquired from a 3-D reference shape by processing multiple straight-stripe-like patterns projected in a camera view, which are projections of multiple curved-stripe patterns generated by the reference shape. Compared with straight-stripe projections in most structured light methods, the number of curved-stripe projections can be reduced using our method, which facilitates rapid processing and the acquisition of different 3-D shapes with little degradation accuracy when a 3-D shape in the background scene is provided as a reference. Using this method, we developed a structured light system that can acquire and process 512〜512 depth images in real time at 500 fps using a high-speed vision platform synchronized with a high-speed DLP projector.
We demonstrated its effectiveness in several experiments measured at 500 fps.
In our method, different shapes are acquired from a 3-D reference shape by processing multiple straight-stripe-like patterns projected in a camera view, which are projections of multiple curved-stripe patterns generated by the reference shape. Compared with straight-stripe projections in most structured light methods, the number of curved-stripe projections can be reduced using our method, which facilitates rapid processing and the acquisition of different 3-D shapes with little degradation accuracy when a 3-D shape in the background scene is provided as a reference. Using this method, we developed a structured light system that can acquire and process 512〜512 depth images in real time at 500 fps using a high-speed vision platform synchronized with a high-speed DLP projector.
We demonstrated its effectiveness in several experiments measured at 500 fps.
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 (a) depth video WMV movie(2.6M) |
 (b) differential depth video WMV movie(2.6M) |
Reference
- Hao Gao, Tadayoshi Aoyama, Takeshi Takaki, and Idaku Ishii, A Self-projected Structured Light System for Fast Three-dimensional Shape Inspection, International Journal of Robotics and Automation, Vol.30, No.4, 206-4325 (2015)
- Jun Chen, Qingyi Gu, Tadayoshi Aoyama, Takeshi Takaki, and Idaku Ishii, A Fast 3D Shape Scanner Using Two HFR Camera-projector Systems, Proceedings of Advances In Robotics (AIR'15), doi: 10.1145/2783449.2783478, 2015
- Yongjiu Liu, Hao Gao, Qingyi Gu, Tadayoshi Aoyama, Takeshi Takaki, and Idaku Ishii, High-Frame-Rate Structured Light 3-D Vision for Fast Moving Objects, Journal of Robotics and Mechatronics, Vol.26 No.3, pp.311-320 (2014)
- Hao Gao, Tadayoshi Aoyama, Takeshi Takaki, and Idaku Ishii: Self-Projected Structured Light Method for Fast Depth-Based Image Inspection, Proceedings of the International Conference on Quality Control by Artificial Vision, pp.175-180, 2013.