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Goode homolosine projection of the world. Tissot indicatrix on Goode homolosine projection, 15° graticule. The Goode homolosine projection (or interrupted Goode homolosine projection) is a pseudocylindrical, equal-area, composite map projection used for world maps. Normally it is presented with multiple interruptions, most commonly of the ...
Projection Image Type ... Goode homolosine: Pseudocylindrical ... A family of map projections that includes as special cases Mollweide projection, Collignon ...
Between those two latitudes the sinusoidal projection is inserted. The Interrupted Homolosine projection is a pseudo-cylindrical, equal area projection. Initially, Goode's Homolosine projection did not have universal appeal. The United States not being at the center of the map challenged the cartographic culture of the time (Schulten 187).
The Goode homolosine projection is a pseudocylindrical, equal-area, composite map projection used for world maps. Image 2 United Nations Human Development Index map by country (2016) Image 3 Mollweide projection of the world
A Cornucopia of Map Projections, a visualization of distortion on a vast array of map projections in a single image. G.Projector, free software can render many projections (NASA GISS). Color images of map projections and distortion (Mapthematics.com). Geometric aspects of mapping: map projection (KartoWeb.itc.nl).
An archetypical example is the Goode homolosine projection. In 1916, John Paul Goode experimented by interrupting the Mollweide projection. Satisfied with the interruption scheme, he then devised a new projection as a composite of the Mollweide and the sinusoidal projection and applied the same interruption scheme to the new projection, which ...
AI art is suddenly everywhere. We created a quiz to see whether you can spot the difference between human- and robot-generated images.
The Mercator projection (/ m ər ˈ k eɪ t ər /) is a conformal cylindrical map projection first presented by Flemish geographer and mapmaker Gerardus Mercator in 1569. In the 18th century, it became the standard map projection for navigation due to its property of representing rhumb lines as straight lines.