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A 3D projection (or graphical projection) is a design technique used to display a three-dimensional (3D) object on a two-dimensional (2D) surface. These projections rely on visual perspective and aspect analysis to project a complex object for viewing capability on a simpler plane. 3D projections use the primary qualities of an object's basic ...
Planar projections are the subset of 3D graphical projections constructed by linearly mapping points in three-dimensional space to points on a two-dimensional projection plane. The projected point on the plane is chosen such that it is collinear with the corresponding three-dimensional point and the centre of projection .
In cartography, a map projection is any of a broad set of transformations employed to represent the curved two-dimensional surface of a globe on a plane. [1] [2] [3] In a map projection, coordinates, often expressed as latitude and longitude, of locations from the surface of the globe are transformed to coordinates on a plane.
A point P somewhere in the world at coordinate (,,) relative to the axes X1, X2, and X3. The projection line of point P into the camera. This is the green line which passes through point P and the point O. The projection of point P onto the image plane, denoted Q. This point is given by the intersection of the projection line (green) and the ...
A projected coordinate system – also called a projected coordinate reference system, planar coordinate system, or grid reference system – is a type of spatial reference system that represents locations on Earth using Cartesian coordinates (x, y) on a planar surface created by a particular map projection. [1]
The straight-line distance between the central point on the map to any other point is the same as the straight-line 3D distance through the globe between the two points. c. 150 BC: Stereographic: Azimuthal Conformal Hipparchos* Map is infinite in extent with outer hemisphere inflating severely, so it is often used as two hemispheres.
In homogeneous coordinates, the point (,,) is represented by (,,,) and the point it maps to on the plane is represented by (,,), so projection can be represented in matrix form as Matrices representing other geometric transformations can be combined with this and each other by matrix multiplication. As a result, any perspective projection of ...
For any point P on M, there is a unique line through N and P, and this line intersects the plane z = 0 in exactly one point P ′, known as the stereographic projection of P onto the plane. In Cartesian coordinates ( x , y , z ) on the sphere and ( X , Y ) on the plane, the projection and its inverse are given by the formulas