発表論文

2010.01

Linear solution for oneshot active 3d reconstruction using two projectors

佐川 立昌, Kazuhiro Sakashita, Yuya Ohta, Yasushi Yagi, Ryo Furukawa, Ryota Zushi, Naoki Asada, Hiroshi Kawasaki

概要

Development of active 3D scanning system that can capture fast-moving dynamic objects is an important research topic for many applications. To capture fast-moving objects, a oneshot scanning method that uses a single static image is preferable than those that uses multiple patterns. Recently, oneshot scanning methods that use intersection points of grid patterns have been proposed. In those methods, solutions only from intersection points have ambiguity, and thus, additional information, such as variation of grid intervals, were used to solve this. However, the variation of grid intervals makes it difficult to increase the density of the pattern. In this work, we propose a system that consists of a camera and two projectors and each of the projectors projects parallel line patterns instead of grid patterns. Shape is reconstructed from the intersection points between those two sets of parallel lines. It is shown that a unique linear solution is possible for such a system, thus, dense grid patterns with uniform intervals can be used to increase density of the pattern. Furthermore, by using two projectors, blind areas caused by occlusion and self-occlusion are drastically reduced. In the experiment, we built a system which consists of two projectors and a single camera, and successfully captured a dense shape of fast moving objects with video rate.