Isometric projection
Isometric projection is a method for visually representing three-dimensional objects in two dimensions in technical and engineering drawings.
It is an axonometric projection in which the three coordinate axes appear equally foreshortened and the angle between any two of them is 120 degrees.
The term "isometric" comes from the Greek for "equal measure", reflecting that the scale along each axis of the projection is the same (unlike some other forms of graphical projection).
Next, the cube is rotated ±45° about the vertical axis, followed by a rotation of approximately 35.264° (precisely arcsin 1⁄√3 or arctan 1⁄√2, which is related to the Magic angle) about the horizontal axis.
Note that with the cube (see image) the perimeter of the resulting 2D drawing is a perfect regular hexagon: all the black lines have equal length and all the cube's faces are the same area.
In a similar way, an isometric view can be obtained in a 3D scene.
Starting with the camera aligned parallel to the floor and aligned to the coordinate axes, it is first rotated horizontally (around the vertical axis) by ±45°, then 35.264° around the horizontal axis.
In all these cases, as with all axonometric and orthographic projections, such a camera would need a object-space telecentric lens, in order that projected lengths not change with distance from the camera.
The term "isometric" is often mistakenly used to refer to axonometric projections, generally.
There are, however, actually three types of axonometric projections: isometric, dimetric and oblique.
From the two angles needed for an isometric projection, the value of the second may seem counterintuitive and deserves some further explanation.
Let's first imagine a cube with sides of length 2, and its center at the axis origin, which means all its faces intersect the axes at a distance of 1 from the origin.
We can calculate the length of the line from its center to the middle of any edge as √2 using Pythagoras' theorem .
By rotating the cube by 45° on the x-axis, the point (1, 1, 1) will therefore become (1, 0, √2) as depicted in the diagram.
There are eight different orientations to obtain an isometric view, depending into which octant the viewer looks.
The isometric transform from a point ax,y,z in 3D space to a point bx,y in 2D space looking into the first octant can be written mathematically with rotation matrices as:
The other 7 possibilities are obtained by either rotating to the opposite sides or not, and then inverting the view direction or not.
[1] First formalized by Professor William Farish (1759–1837), the concept of isometry had existed in a rough empirical form for centuries.
[3][4] From the middle of the 19th century, isometry became an "invaluable tool for engineers, and soon thereafter axonometry and isometry were incorporated in the curriculum of architectural training courses in Europe and the U.S."[5] According to Jan Krikke (2000)[6] however, "axonometry originated in China.
Axonometry, and the pictorial grammar that goes with it, has taken on a new significance with the advent of visual computing".
[6] As with all types of parallel projection, objects drawn with isometric projection do not appear larger or smaller as they extend closer to or away from the viewer.
While advantageous for architectural drawings where measurements need to be taken directly, the result is a perceived distortion, as unlike perspective projection, it is not how human vision or photography normally work.
It also can easily result in situations where depth and altitude are difficult to gauge, as is shown in the illustration to the right or above.
This can appear to create paradoxical or impossible shapes, such as the Penrose stairs.
Isometric video game graphics are graphics employed in video games and pixel art that utilize a parallel projection, but which angle the viewpoint to reveal facets of the environment that would otherwise not be visible from a top-down perspective or side view, thereby producing a three-dimensional effect.
Instead, a variety of angles are used, with dimetric projection and a 2:1 pixel ratio being the most common.
Once common, isometric projection became less so with the advent of more powerful 3D graphics systems, and as video games began to focus more on action and individual characters.
