CONSTRUCTIVE GEOMETRY IN IMPLEMENTATIONS OF MODERN 3D GRAPHICS

IF 0.5 Q4 EDUCATION & EDUCATIONAL RESEARCH
Ivan G. Lenchuk, Oleksandr O. Mosiiuk
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引用次数: 0

Abstract

3D graphics are one of the crucial development trends of modern digital technologies. Engineering and manufacturing, architecture, design, cinematography, education, and the game industry are an incomplete list of industries where it is actively used. Specialists in 3D graphics are in high demand in the labor market. Their proper training presupposes high-quality knowledge of geometrical sciences, in particular – constructive geometry. Note that constructive geometry is an integral part of modern school mathematics education. That is why, even in the conditions of the school, the teacher should skillfully apply the demonstration capabilities of three-dimensional graphics. It will also encourage students of a comprehensive school to apply knowledge of constructive geometry in practice in the area of 3D modeling. This approach will make it possible to demonstrate the importance and interconnectedness of knowledge in geometry and computer science. Therefore, the article reveals the importance of interdisciplinary connections between the specified disciplines in the context of research, demonstration, and application aspects. In particular, the nuances of using the GeoGebra dynamic geometry complex for conducting computational experiments and creating spatial models based on tasks from a school spatial geometry course are described. After all, modern capabilities of software tools make it possible to demonstrate in real time all the transformations that took place during drawing modeling on the picture plane. The importance of the applied value of constructive geometry for 3D modeling reveals based on examples of solid and polygonal modeling of virtual spatial objects. In particular, the steps of creating a solid model of a pyramid, which is formed by cutting it off with a plane from a regular quadrangular pyramid, are illustrated by the basis of calculations and constructions, which are performed using techniques of constructive geometry. All stages are described and done using the TinkerCAD online modeling service tools. An example of using the Blender program for creating polygonal 3D models is also provided. In particular, the significant aspects of the part modeling process are presented in the example of a task from a drawing textbook. The importance of planimetric constructions in the process of performing high-precision polygonal modeling is also emphasized. The article contains many figures that illustrate the essential stages of modeling. The materials presented can be used to prepare lessons in either mathematics or computer science and can be used to conduct integrated classes that draw on both subjects. Possible prospects for further research on this topic are also presented.
现代三维图形实现中的构造几何
三维图形是现代数字技术的重要发展趋势之一。工程和制造、建筑、设计、电影摄影、教育和游戏行业是一个不完整的行业列表,其中它被积极使用。3D图形专家在劳动力市场上需求量很大。他们的适当训练以高质量的几何科学知识为前提,特别是构造几何知识。注意构造几何是现代学校数学教育的一个组成部分。这就是为什么即使在学校的条件下,教师也要熟练地运用三维图形的演示能力。它还将鼓励综合学校的学生将建设性几何知识应用于3D建模领域的实践。这种方法将有可能证明几何学和计算机科学知识的重要性和相互联系。因此,本文揭示了特定学科之间在研究、论证和应用方面的跨学科联系的重要性。特别地,描述了使用GeoGebra动态几何复合物进行计算实验和基于学校空间几何课程任务创建空间模型的细微差别。毕竟,软件工具的现代功能使实时演示在画面上绘制建模期间发生的所有转换成为可能。通过虚拟空间物体的立体和多边形建模实例,揭示了构造几何在三维建模中的应用价值。特别是,创建一个金字塔的实体模型的步骤,它是通过用一个平面从一个规则的四边形金字塔上切下来形成的,通过计算和构造的基础来说明,这是使用构造几何技术来执行的。使用TinkerCAD在线建模服务工具描述和完成所有阶段。还提供了使用Blender程序创建多边形3D模型的示例。特别是,零件建模过程的重要方面提出了一个任务的例子,从绘图教科书。文中还强调了平面构造在进行高精度多边形建模过程中的重要性。这篇文章包含了许多图来说明建模的基本阶段。所提供的材料可以用来准备数学或计算机科学课程,也可以用来进行综合课程,利用这两门学科。并对今后的研究进行了展望。
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
Information Technologies and Learning Tools
Information Technologies and Learning Tools EDUCATION & EDUCATIONAL RESEARCH-
自引率
50.00%
发文量
89
审稿时长
40 weeks
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