基于相移轮廓测量法的两步移动物体三维重建技术

Yitao Liang, Jiabei Dai, Lei Lu
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摘要

近年来,基于移相轮廓测量的三维物体重建技术逐渐受到重视并得到广泛应用。国内外学者对三维测量的精度和速度进行了不断的研究和探索,并逐渐向动态测量方向发展。大多数动态测量需要投影多个条纹图案才能获得足够的物体相位信息,而条纹越多,运动造成的相位误差就越大。本文提出了在条纹图案投影期间增加采样条纹图案的方法,以实现高帧率动态三维物体重建。通过结合环境光的强度值;最后,通过跟踪运动物体获得的运动信息来提取物体的相位信息。本文通过仿真实验证明了该方法的可行性,并提高了运动物体的三维重建帧率。
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Three Dimensional Reconstruction of Two-step Moving Objects based on Phase-shifting Profilometry
In recent years, 3D object reconstruction based on phase-shifting profilometry has gradually received attention and been widely applied. Domestic and foreign scholars have been continuously researching and exploring the accuracy and speed of three-dimensional measurement, and gradually developing towards dynamic measurement. Most dynamic measurements require projecting multiple stripe patterns to obtain sufficient object phase information, and the more stripes there are, the greater the phase error caused by motion. This article proposes the use of increasing the sampling fringe pattern during the projection period of a fringe pattern to achieve high frame rate dynamic 3D object reconstruction. By combining the intensity values of ambient light; Finally, the phase information of the object is extracted by tracking the motion information obtained from the moving object. This article demonstrates the feasibility of this method through simulation experiments and improves the frame rate of 3D reconstruction of moving objects.
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