The oblique Mercatormap projection is an adaptation of the standard Mercator projection. The oblique version is sometimes used in national mapping systems. When paired with a suitable geodetic datum, the oblique Mercator delivers high accuracy in zones less than a few degrees in arbitrary directional extent.
Standard and oblique aspects
The oblique Mercator projection is the oblique aspect of the standard Mercator projection. They share the same underlying mathematical construction and consequently the oblique Mercator inherits many traits from the normal Mercator:
Both projections are cylindrical: for the Normal Mercator, the axis of the cylinder coincides with the polar axis and the line of tangency with the equator. For the transverse Mercator, the axis of the cylinder lies in the equatorial plane, and the line of tangency is any chosen meridian, thereby designated the central meridian.
Both projections may be modified to secant forms, which means the scale has been reduced so that the cylinder slices through the model globe.
Both projections are conformal, so that the point scale is independent of direction and local shapes are well preserved;
Both projections can have constant scale on the line of tangency. For the ellipsoidal form, several developments in use do not have constant scale along the line of tangency.
Since the standard great circle of the oblique Mercator can be chosen at will, it may be used to construct highly accurate maps anywhere on the globe.
Spherical oblique Mercator
In constructing a map on any projection, a sphere is normally chosen to model the Earth when the extent of the mapped region exceeds a few hundred kilometers in length in both dimensions. For maps of smaller regions, an ellipsoidal model must be chosen if greater accuracy is required; see next section.
Ellipsoidal oblique Mercator
Hotine oblique Mercator projection has approximately constant scale along the geodesic of conceptual tangency. Hotine's work was extended by Engels and Grafarend in 1995 to make the geodesic of conceptual tangency have true scale.
The Space-oblique Mercator projection is a generalization of the oblique Mercator projection to incorporate time evolution of a satellite ground track.
