Winkel tripel projection


The Winkel tripel projection, a modified azimuthal map projection of the world, is one of three projections proposed by German cartographer Oswald Winkel in 1921. The projection is the arithmetic mean of the equirectangular projection and the Aitoff projection: The name tripel refers to Winkel's goal of minimizing three kinds of distortion: area, direction, and distance.

Algorithm

where λ is the longitude relative to the central meridian of the projection, φ is the latitude, φ is the standard parallel for the equirectangular projection, sinc is the unnormalized cardinal sine function, and
In his proposal, Winkel set
A closed-form inverse mapping does not exist, and computing the inverse numerically is somewhat complicated.

Comparison with other projections

David M. Goldberg and J. Richard Gott III show that the Winkel tripel fares well against several other projections analyzed against their measures of distortion, producing small distance errors, small combinations of Tissot indicatrix ellipticity and area errors, and the smallest skewness of any of the projections they studied.
By a different metric, Capek's "Q", the Winkel tripel ranked ninth among a hundred map projections of the world, behind the common Eckert IV projection and Robinson projections.
In 1998, the Winkel tripel projection replaced the Robinson projection as the standard projection for world maps made by the National Geographic Society. Many educational institutes and textbooks followed National Geographic's example in adopting the projection, and most of those still use it.