3D imaging and body measurement of riding horses using four scanners simultaneously.

Q3 Veterinary Journal of Equine Science Pub Date : 2024-03-01 Epub Date: 2024-03-19 DOI:10.1294/jes.35.1
Akihiro Matsuura, Suzuka Torii, Yuki Ojima, Yoshio Kiku
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Abstract

Although there have been advances in the technology for measuring horse body size with stereoscopic three-dimensional (3D) scanners, previously reported methods with a single scanner still face a significant challenge: the time necessary for scanning is too long for the horses to remain stationary. This study attempted to scan the horse simultaneously from four directions using four scanners in order to complete the scans in a short amount of time and then combine the images from the four scans on a computer into one whole image of each horse. This study also compared body measurements from the combined 3D images with those taken from conventional manual measurements. Nine riding horses were used to construct stereoscopic composite images, and the following 10 measurements were taken: height at the withers, back, and croup; chest depth; width of the chest (WCh), croup, and waist; girth circumference, cannon circumference (CaC), and body length. The same 10 measurements were taken by conventional manual methods. Relative errors ranged from -1.89% to 7.05%. The correlation coefficient between manual and 3D measurements was significant for all body measurements (P<0.01) except for WCh and CaC. A simple regression analysis of all body measurements revealed a strong correlation (P<0.001, R2=0.9994, root-mean-square error=1.612). Simultaneous scanning with four devices from four directions reduced the scanning time from 60 sec with one device to 15 sec. This made it possible to perform non-contact body measurements even on incompletely trained horses who could not remain stationary for long periods of time.

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同时使用四台扫描仪对骑马进行三维成像和身体测量。
尽管使用立体三维(3D)扫描仪测量马匹体型的技术不断进步,但之前报道的使用单个扫描仪的方法仍然面临一个重大挑战:扫描所需的时间太长,马匹无法保持静止不动。本研究尝试使用四台扫描仪同时从四个方向对马进行扫描,以便在短时间内完成扫描,然后在计算机上将四次扫描的图像合并为每匹马的完整图像。这项研究还比较了综合三维图像与传统人工测量的身体测量结果。九匹骑马被用来构建立体合成图像,并进行了以下 10 项测量:肩高、背高和马背高;胸深;胸宽(WCh)、马背宽和腰宽;腰围、炮围(CaC)和体长。同样的 10 项测量采用传统的人工方法进行。相对误差在-1.89%到7.05%之间。在所有身体测量中,手动测量和三维测量的相关系数都很显著(P2=0.9994,均方根误差=1.612)。四台设备从四个方向同时扫描,扫描时间从一台设备的 60 秒缩短到 15 秒。这样,即使是对训练不完全、无法长时间保持静止的马匹也能进行非接触式身体测量。
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来源期刊
Journal of Equine Science
Journal of Equine Science Veterinary-Equine
CiteScore
1.60
自引率
0.00%
发文量
9
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