Stereographic

Description

This projection is conformal.

Illustration of the polar stereographic projection

Projection method

Planar perspective projection, viewed from the point on the globe opposite the point of tangency. Stereographic projects points on a spheroid directly to the plane.

Learn about the Double Stereographic projection

All meridians and parallels are shown as circular arcs or straight lines. Graticular intersections are 90°. In the equatorial aspect, the parallels curve in opposite directions on either side of the equator. In the oblique case, only the parallel with the opposite sign to the central latitude is a straight line; other parallels are concave toward the poles on either side of the straight parallel.

Point of contact

A single point anywhere on the globe.

Linear graticules

Properties

Shape

Conformal. Local shapes are accurate.

Area

True scale at center with distortion increasing with distance.

Direction

Directions are accurate from the center. Local angles are accurate everywhere.

Distance

Scale increases with distance from the center.

Limitations

Normally limited to one hemisphere. Portions of the outer hemisphere may be shown, but with rapidly increasing distortion.

Uses and applications

The oblique aspect has been used to map circular regions on the moon, Mars, and Mercury.

Parameters

Desktop

  • False Easting
  • False Northing
  • Central Meridian
  • Scale factor
  • Latitude of Origin

Stereographic_North_Pole

  • False Easting
  • False Northing
  • Central Meridian
  • Standard Parallel 1

Stereographic_South_Pole

  • False Easting
  • False Northing
  • Central Meridian
  • Standard Parallel 1

Stereographic Auxiliary Sphere (Desktop version 9.3 and later)

  • False Easting
  • False Northing
  • Central Meridian
  • Scale factor
  • Latitude of Origin
  • Auxiliary Sphere Type
NoteNote:

The Auxiliary Sphere Type parameter accepts 0 (use semimajor axis or radius of the geographic coordinate system), 1 (use semiminor axis or radius), 2 (calculate and use authalic radius), or 3 (use authalic radius and convert geodetic latitudes to authalic latitudes).

Workstation

  • Supported on spheres only
  • Enter projection type < 1 | 2 >

Type 1 parameters

  • Radius of the sphere of reference
  • Longitude of center of projection
  • Latitude of center of projection
  • False Easting (meters)
  • False Northing (meters)

Type 2 parameters

  • Longitude of Central Meridian
  • Latitude of projection's center
  • View <EQUATORIAL | NORTHPOLE | SOUTHPOLE>
  • Scale factor: equatorial view or Latitude of standard parallel: polar view

Related Topics

7/31/2013