Use of Mechanisms Marking Centers of Simplexes in Their 2-Dimensional Projections as Axonographs of Multidimensional Spaces

S. Abdurahmanov
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引用次数: 1

Abstract

A brief historical excursion into the graphics of geometry of multidimensional spaces at the paper beginning clarifies the problem – the necessary to reduce the number of geometric actions performed when depicting multidimensional objects. The problem solution is based on the properties of geometric figures called N- simplexes, whose number of vertices is equal to N + 1, where N expresses their dimensionality. The barycenter (centroid) of the N-simplex is located at the point that divides the straight-line segment connecting the centroid of the (N–1)-simplex contained in it with the opposite vertex by 1: N. This property is preserved in the parallel projection (axonometry) of the simplex on the drawing plane, that allows the solution of the problem of determining the centroid of the simplex in its axonometry to be assigned to a mechanism which is a special Assembly of pantographs (the author's invention) with similarity coefficients 1:1, 1:2, 1:3, 1:4,...1:N. Next, it is established, that the spatial location of a point in N-dimensional space coincides with the centroid of the simplex, whose vertices are located on the point’s N-fold (barycentric) coordinates. In axonometry, the ends of both first pantograph’s links and the ends of only long links of the remaining ones are inserted into points indicating the projections of its barycentric coordinates and the mechanism node, which serves as a determinator, graphically marks the axonometric location of the point defined by its coordinates along the axes х1, х2, х3 … хN.. The translational movement of the support rods independently of each other can approximate or remote the barycentric coordinates of a point relative to the origin of coordinates, thereby assigning the corresponding axonometric places to the simplex barycenter, which changes its shape in accordance with its points’ occupied places in the coordinate axes. This is an axonograph of N-dimensional space, controlled by a numerical program. The last position indicates the possibility for using the equations of multidimensional spaces’ geometric objects given in the corresponding literature for automatic drawing when compiling such programs.
在二维投影中标记单形中心的机制作为多维空间轴向图的应用
本文一开始对多维空间的几何图形进行了简短的历史考察,澄清了这个问题——在描绘多维对象时减少几何动作数量的必要性。这个问题的解决方案是基于被称为N- simplexes的几何图形的属性,其顶点的数量等于N + 1,其中N表示它们的维度。n -单纯形的质心(质心)位于将其中包含的(N-1)-单纯形的质心与对面顶点相连的直线段除以1的点上:N.这一性质保留在单纯形在绘图平面上的平行投影(轴测法)中,这使得确定其轴测法中单纯形质心的问题的解决方案可以分配给一个机构,该机构是具有相似系数1:1,1:2,1:3,1:4,…1:1:N的特殊受电弓组合(作者的发明)。其次,建立n维空间中某点的空间位置与单纯形的质心重合,单纯形的顶点位于该点的n倍(重心)坐标上。在轴测中,第一个受电弓的连杆的末端和其余的长连杆的末端都插入点中,这些点表示其质心坐标的投影,而机构节点作为一个决定因素,图形地标记由其坐标定义的点沿轴х1, х2, х3…хN的轴测位置。支撑杆的相互独立的平移运动可以近似或远离一个点相对于坐标原点的质心坐标,从而为单纯形质心分配相应的轴测位置,单纯形质心根据其点在坐标轴上的位置变化其形状。这是一个n维空间的轴向图,由一个数值程序控制。最后一个位置表示在编制此类程序时,利用相应文献中给出的多维空间几何对象方程进行自动绘图的可能性。
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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