计算图形学在解决非传统工程问题中的应用

Yu. Savel'ev, E.Yu. Cherkasova
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引用次数: 8

摘要

基于已发表的数据,阐述了计算图形学的本质。已经报道了仅通过精确的计算机构造和测量获得新结果的例子。工作内容是通过解决非传统工程问题来实现目标的新方法的展示。作者的带时间戳的投影方法实际上是一种计算机描述几何,它可以解决9个变量的多参数(不要与多维)问题[1-3;13)。作者提出的两轴等尺寸演化方法[11;12;[17]可以对立体角进行定量测量。三角函数(鼻窦、正弦波等)的加入也可以被认为是一种新奇的东西[10;11;14)。在解析几何和描述几何的交界处计算了十二面体的参数,并给出了十二面体的数学描述。在传统的AG任务中,所需要的参数已被图形化计算,包括一个点的运动速度。介绍了作者在理论力学中确定瞬时中心的方法。首次建立了点与连杆整体的转角相等性,建立了连续质心。通过矢量分解,提出了一种新的矢量投影求和方法。开发的带时间戳的投影方法允许同时考虑诸如运动物体(两个或两个以上)在时间上的空间坐标、速度甚至大小(包括可变的)等参数。已经显示了图形规划的可能性,同时解决方程组,以及图形解决代数和立体问题。本刊物旨在传播解决工程问题的计算机方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Computational Graphics in Solving of Non-Traditional Engineering Problems
Based on the published data, the essence of computational graphics has been laid down. Have been reported examples of new results obtained only through accurate computer constructions and measurements. The work content is a presentation of new ways to achieve the goal by solving non-traditional engineering problems. The author's method of projection with time-stamps, which, in fact, is a computer descriptive geometry, allows solve multi-parameter (not to be confused with multi-dimensional) problems with 9 variables [1–3; 13]. The author’s method of two-axis equal-sized evolvement [11; 12; 17] allows quantitatively measurements of solid angles. The addition of trigonometric functions (sinuses, sinusoids, etc.) can also be considered as a novelty [10; 11; 14]. At the junction of analytic (AG) and descriptive geometries have been calculated parameters of dodecahedron and has been given its mathematical description. In the traditional AG task, the required parameters have been calculated graphically, including a point’s speed of movement. Has been presented the author’s method for determining the instantaneous center in theoretical mechanics. For the first time, the equality of the angles of rotation for points and the link as a whole has been established, and a continuous centroid has been built. By decomposition of vectors a new way for summing up theirs vertical projections has been demonstrated. The developed method of projections with time-stamps allows simultaneously consider such parameters as spatial coordinates of moving objects (two or more) in time, their speeds and even sizes, including the variable ones. Has been shown the possibility for graphical programming while solving systems of equations, as well as for graphical solution of algebraic and stereometric problems. This publication aims to disseminate computer methods for engineering problems solving.
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