Coordinate reference systems (CRS)#
The cartopy.crs.CRS
class is the very core of cartopy, all coordinate reference systems
in cartopy have CRS
as a parent class.
Base CRS’s#
|
Define a Coordinate Reference System using proj. |
|
Define an ellipsoid and, optionally, how to relate it to the real world. |
|
Define a projected coordinate system with flat topology and Euclidean distance. |
|
Define a latitude/longitude coordinate system with spherical topology, geographical distance and coordinates are measured in degrees. |
|
Define a Geocentric coordinate system, where x, y, z are Cartesian coordinates from the center of the Earth. |
|
Define a rotated latitude/longitude coordinate system with spherical topology and geographical distance. |
|
Return the projection which corresponds to the given EPSG code. |
Geodesic calculations#
The cartopy.geodesic
module defines the cartopy.geodesic.Geodesic
class which can interface with the Proj
geodesic functions. See the Proj geodesic page for more background
information.
|
Define an ellipsoid on which to solve geodesic problems. |
List of projections#
- Cartopy projection list
- PlateCarree
- AlbersEqualArea
- AzimuthalEquidistant
- EquidistantConic
- LambertConformal
- LambertCylindrical
- Mercator
- Miller
- Mollweide
- ObliqueMercator
- Orthographic
- Robinson
- Sinusoidal
- Stereographic
- TransverseMercator
- UTM
- InterruptedGoodeHomolosine
- RotatedPole
- OSGB
- EuroPP
- Geostationary
- NearsidePerspective
- EckertI
- EckertII
- EckertIII
- EckertIV
- EckertV
- EckertVI
- Aitoff
- EqualEarth
- Gnomonic
- Hammer
- LambertAzimuthalEqualArea
- NorthPolarStereo
- OSNI
- SouthPolarStereo