Visualization research of modern ceramic production art based on 3D modeling technology

IF 3.1 Q1 Mathematics
Yangqiu Ye
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引用次数: 0

Abstract

This paper is based on the research of visual shell related technology of 3D modeling method to extract the corresponding points of the graphical shell, through matching, filtering and denoising operations, to obtain the accurate 3D visualization model and provide new creative ideas and paths for contemporary ceramic art. In the actual ceramic membrane visualization feature extraction, six feature quantities of ceramic membrane, namely, area, aspect ratio, area perimeter, circularity, diagonal length, and angular second-order moments, can be obtained. The application of the visualization technique proposed in this paper to teaching ceramic production art was assessed by the performance of the knowledge answer questions. Regarding the average score, the experimental group (75.5) performed significantly better than the control group (63.6). Significant differences were found between the experimental and control groups in mental rotation (P=0.03<0.05), spatial visualization (P=0.006<0.05), and spatial reasoning skills (F=6.98, P=0.014<0.05). However, the two groups had no significant difference in spatial orientation (P=0.13>0.05). This suggests that the immersive learning environment of visualization technology can significantly enhance learners’ spatial reasoning skills, mental rotation, and spatial orientation.
基于三维建模技术的现代陶瓷制作艺术可视化研究
本文基于三维建模方法的可视化外壳相关技术研究,提取图形外壳的对应点,通过匹配、滤波、去噪等操作,得到精确的三维可视化模型,为当代陶瓷艺术提供新的创作思路和路径。在实际的陶瓷膜可视化特征提取中,可以得到陶瓷膜的面积、长宽比、面积周长、圆度、对角线长度、角二阶矩六个特征量。本文提出的可视化技术在陶瓷制作技艺教学中的应用通过知识答题成绩进行了评估。就平均得分而言,实验组(75.5 分)明显优于对照组(63.6 分)。实验组和对照组在心理旋转方面存在显著差异(P=0.030.05)。这表明,可视化技术的沉浸式学习环境能显著提高学习者的空间推理能力、心智旋转能力和空间定向能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Applied Mathematics and Nonlinear Sciences
Applied Mathematics and Nonlinear Sciences Engineering-Engineering (miscellaneous)
CiteScore
2.90
自引率
25.80%
发文量
203
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