Temporal Shape Super-Resolution by Intra-frame Motion Encoding Using High-fps Structured Light

Yuki Shiba, S. Ono, Furukawa Ryo, S. Hiura, Hiroshi Kawasaki
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引用次数: 4

Abstract

One of the solutions of depth imaging of moving scene is to project a static pattern on the object and use just a single image for reconstruction. However, if the motion of the object is too fast with respect to the exposure time of the image sensor, patterns on the captured image are blurred and reconstruction fails. In this paper, we impose multiple projection patterns into each single captured image to realize temporal super resolution of the depth image sequences. With our method, multiple patterns are projected onto the object with higher fps than possible with a camera. In this case, the observed pattern varies depending on the depth and motion of the object, so we can extract temporal information of the scene from each single image. The decoding process is realized using a learning-based approach where no geometric calibration is needed. Experiments confirm the effectiveness of our method where sequential shapes are reconstructed from a single image. Both quantitative evaluations and comparisons with recent techniques were also conducted.
使用高fps结构光的帧内运动编码的时间形状超分辨率
运动景物深度成像的解决方案之一是在物体上投影静态图案,仅使用单幅图像进行重建。但是,如果物体的运动相对于图像传感器的曝光时间太快,则捕获图像上的图案会模糊并且重建失败。在本文中,我们在每张捕获的图像中施加多个投影模式,以实现深度图像序列的时间超分辨率。使用我们的方法,多个图案以比相机更高的fps投射到物体上。在这种情况下,观察到的模式根据物体的深度和运动而变化,因此我们可以从每张图像中提取场景的时间信息。解码过程使用基于学习的方法实现,不需要几何校准。实验验证了该方法在单幅图像重建序列形状时的有效性。还进行了定量评价和与最近技术的比较。
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