- Cavalier perspective
The cavalier perspective, also called cavalier projection or high view point, is a way to represent a three dimensional object on a flat drawing, and more specifically, a type of
oblique projection .A point of the object is represented by three coordinates, "x", "y" and "z". On the drawing, it is represented by only two coordinates, "x" and "y".On the flat drawing, two axes, "x" and "z" on the figure, are
perpendicular and the length on these axes are drawn with a 1:1 scale; it is thus similar to thedimetric projection s, although it is not anorthographic projection , as the third axis, here "y", is drawn in diagonal, making an arbitrary angle with the "x" axis, usually 30 or 45°. The length of the third axis is not scaled [ [http://www.tpub.com/content/draftsman/14276/css/14276_307.htm Illustrator Draftsman 3 & 2 - Volume 2 Standard Practices and Theory, page 67] from http://www.tpub.com] [Ingrid Carlbom, Joseph Paciorek, Planar Geometric Projections and Viewing Transformations, ACM Computing Surveys (CSUR), v.10 n.4, p.465-502, Dec. 1978] .This perspective does not try to give an illusion of what can be seen, but just tries to give an information about the depth.
It is very easy to draw, especially with pen and paper. It is thus often used when a figure must be drawn by hand, e.g. on a black board (lesson, oral examination).
The representation was initially used for military
fortification s. In French, the « cavalier » (literally "rider, horseman", see "Cavalry ") is an artificial hill behind the walls that allows to see the enemy above the walls [ [http://trucsmaths.free.fr/etymologie.htm#C Etymologie des maths, letter C] (French)] . The cavalier perspective was the way the things were seen from this high point. Some also explain the name by the fact that it was the way a rider could see a small object on the ground from his horseback [ [http://mapage.noos.fr/r.ferreol/langage/notations/notations.htm DES QUESTIONS D’ORIGINES] (French)] .Mathematical aspects
If the plane that faces the reader is "xz" and the "vanishing direction" is the "y" axis and its angle is α, then a point in the space with coordinates ("x", "y", "z") is represented on the flat figure by a ("x", "y") point, with:
* "x" = "x" + cos α·"y" ;
* "y" = "z" + sin α·"y".The transformation matrix is: For example, for an angle 30° and a ratio 0.7:
* "x" = "x" + 0.35·"y" ;
* "y" = "z" + 0.61·"y" ;and for an angle 45° and a ratio 0.5:
* "x" = "x" + 0,35·"y" ;
* "y" = "z" + 0,35·"y" ;References
Further reading
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