3D3C rainbow particle tracking velocimetry: improving depth resolution and velocity vector acquisition rate by using color space for a multi-cycle rainbow pattern

IF 1.7 4区 计算机科学 Q3 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS Journal of Visualization Pub Date : 2024-07-31 DOI:10.1007/s12650-024-01020-x
Mao Takeyama, Hitoshi Suto, Yasuo Hattori
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Abstract

Rainbow particle tracking velocimetry can be used to measure 3D3C flow velocity vectors with a single color camera. The particle depth position is calculated from the hue degree of a particle color. A liquid–crystal display (LCD) projector can be used conveniently as a light source of the color pattern in place of the spectral diffraction of white light. Another advantage of using an LCD projector is the ability to change the RGB components of the color pattern. In this study, the rainbow color pattern was modified to increase available color. Colors with the same hue degree but different saturations were used in the color pattern. Using color space enhanced positional resolution in the color change direction. The parameters of new color patterns were number of cycles, saturation continuity and range of color space. They were designed and their performances were compared. The effective resolution in color change direction enhanced 2.4 times from original patten (single cycle rainbow), and velocity vector acquisition rate improved, in particular, for the range of small amount movement per step.

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3D3C 彩虹粒子跟踪测速仪:利用多周期彩虹图案的色彩空间提高深度分辨率和速度矢量采集率
彩虹粒子跟踪测速仪只需一台彩色摄像机即可测量 3D3C 流速矢量。粒子深度位置是通过粒子颜色的色调度计算得出的。液晶显示屏(LCD)投影仪可方便地用作彩色图案的光源,以取代白光的光谱衍射。使用液晶投影仪的另一个好处是可以改变色彩图案的 RGB 分量。在这项研究中,对彩虹颜色图案进行了修改,以增加可用颜色。色彩图案中使用了色相相同但饱和度不同的颜色。使用色彩空间增强了色彩变化方向的位置分辨率。新色彩图案的参数包括周期数、饱和度连续性和色彩空间范围。对它们进行了设计和性能比较。与原始图案(单周期彩虹)相比,颜色变化方向的有效分辨率提高了 2.4 倍,速度矢量获取率也有所提高,特别是在每步少量移动的范围内。
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来源期刊
Journal of Visualization
Journal of Visualization COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS-IMAGING SCIENCE & PHOTOGRAPHIC TECHNOLOGY
CiteScore
3.40
自引率
5.90%
发文量
79
审稿时长
>12 weeks
期刊介绍: Visualization is an interdisciplinary imaging science devoted to making the invisible visible through the techniques of experimental visualization and computer-aided visualization. The scope of the Journal is to provide a place to exchange information on the latest visualization technology and its application by the presentation of latest papers of both researchers and technicians.
期刊最新文献
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