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[[File:Plate Carrée with Tissot's Indicatrices of Distortion.svg|thumb|upright=1.75|Equirectangular projection with [[Tissot's indicatrix]] of deformation]]
[[File:Plate Carrée with Tissot's Indicatrices of Distortion.svg|thumb|upright=1.75|Equirectangular projection with [[Tissot's indicatrix]] of deformation]]
[[File:Blue Marble 2002.png|thumb|upright=1.75|True-colour satellite image of Earth in equirectangular projection]]
[[File:Blue Marble 2002.png|thumb|upright=1.75|True-colour satellite image of Earth in equirectangular projection]]
The '''equirectangular projection''' (also called the '''equidistant cylindrical projection''' or '''la carte parallélogrammatique projection''', and which includes the special case of the '''plate carrée projection''' (also called the '''geographic projection''', '''lat/lon projection''', or '''plane chart'''), is a simple [[map projection]] attributed to [[Marinus of Tyre]], who [[Ptolemy]] claims invented the projection about AD 100.<ref>''Flattening the Earth: Two Thousand Years of Map Projections'', John P. Snyder, 1993, pp.&nbsp;5–8, {{ISBN|0-226-76747-7}}.</ref> The projection maps [[Meridian (geography)|meridians]] to vertical straight lines of constant spacing (for [[Meridian (geography)|meridional]] intervals of constant spacing), and [[circle of latitude|circles of latitude]] to horizontal straight lines of constant spacing (for constant intervals of [[Circle of latitude|parallels]]). The projection is neither equal area nor [[Conformal map projection|conformal]]. Because of the distortions introduced by this projection, it has little use in [[navigation]] or [[cadastral]] mapping and finds its main use in [[thematic map]]ping. In particular, the plate carrée has become a standard for global [[Geographic information system|raster datasets]], such as [[Celestia]] and [[NASA World Wind]], because of the particularly simple relationship between the position of an [[pixel|image pixel]] on the map and its corresponding geographic location on Earth.
The '''equirectangular projection''' (also called the '''equidistant cylindrical projection''' or '''la carte parallélogrammatique projection''', and which includes the special case of the '''plate carrée projection''' (also called the '''geographic projection''', '''lat/lon projection''', or '''plane chart'''), is a simple [[map projection]] attributed to [[Marinus of Tyre]], who [[Ptolemy]] claims invented the projection about AD 100.<ref>''Flattening the Earth: Two Thousand Years of Map Projections'', John P. Snyder, 1993, pp.&nbsp;5–8, {{ISBN|0-226-76747-7}}.</ref> The projection maps [[Meridian (geography)|meridians]] to vertical straight lines of constant spacing (for [[Meridian (geography)|meridional]] intervals of constant spacing), and [[circle of latitude|circles of latitude]] to horizontal straight lines of constant spacing (for constant intervals of [[Circle of latitude|parallels]]). The projection is neither equal area nor [[Conformal map projection|conformal]]. Because of the distortions introduced by this projection, it has little use in [[navigation]] or [[cadastral]] mapping and finds its main use in [[thematic map]]ping. In particular, the plate carrée has become a standard for global [[Geographic information system|raster datasets]], such as [[Celestia]], [[NASA World Wind]], and [[Natural Earth]], because of the particularly simple relationship between the position of an [[pixel|image pixel]] on the map and its corresponding geographic location on Earth.


==Definition==
==Definition==

Revision as of 15:11, 2 May 2021

Equirectangular projection of the world; the standard parallel is the equator (plate carrée projection).
Equirectangular projection with Tissot's indicatrix of deformation
True-colour satellite image of Earth in equirectangular projection

The equirectangular projection (also called the equidistant cylindrical projection or la carte parallélogrammatique projection, and which includes the special case of the plate carrée projection (also called the geographic projection, lat/lon projection, or plane chart), is a simple map projection attributed to Marinus of Tyre, who Ptolemy claims invented the projection about AD 100.[1] The projection maps meridians to vertical straight lines of constant spacing (for meridional intervals of constant spacing), and circles of latitude to horizontal straight lines of constant spacing (for constant intervals of parallels). The projection is neither equal area nor conformal. Because of the distortions introduced by this projection, it has little use in navigation or cadastral mapping and finds its main use in thematic mapping. In particular, the plate carrée has become a standard for global raster datasets, such as Celestia, NASA World Wind, and Natural Earth, because of the particularly simple relationship between the position of an image pixel on the map and its corresponding geographic location on Earth.

Definition

The forward projection transforms spherical coordinates into planar coordinates. The reverse projection transforms from the plane back onto the sphere. The formulae presume a spherical model and use these definitions:

  • is the longitude of the location to project;
  • is the latitude of the location to project;
  • are the standard parallels (north and south of the equator) where the scale of the projection is true;
  • is the central parallel of the map;
  • is the central meridian of the map;
  • is the horizontal coordinate of the projected location on the map;
  • is the vertical coordinate of the projected location on the map;
  • is the radius of the globe.

Longitude and latitude variables are defined here in terms of radians.

Forward

The plate carrée (French, for flat square), is the special case where is zero. This projection maps x to be the value of the longitude and y to be the value of the latitude, and therefore is sometimes called the latitude/longitude or lat/lon(g) projection or is said to be “unprojected”. Despite sometimes being called “unprojected”, it is actually projected.

When the is not zero, such as Marinus's ,[2] or Ronald Miller's ,[3] the projection can portray particular latitudes of interest at true scale.

While a projection with equally spaced parallels is possible for an ellipsoidal model, it would no longer be equidistant because the distance between parallels on an ellipsoid is not constant. More complex formulae can be used to create an equidistant map whose parallels reflect the true spacing.

Reverse

See also

References

  1. ^ Flattening the Earth: Two Thousand Years of Map Projections, John P. Snyder, 1993, pp. 5–8, ISBN 0-226-76747-7.
  2. ^ Flattening the Earth: Two Thousand Years of Map Projections, John P. Snyder, 1993, pp. 7, ISBN 0-226-76747-7.
  3. ^ PROJ Contributors. "Equidistant Cylindrical (Plate Carrée)". PROJ coordinate transformation software library. Retrieved 25 August 2020. {{cite web}}: |last1= has generic name (help)