The gps coordinate system, Cartesian coordinates, Coordinate system – Leica Geosystems GPS Basics User Manual

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GPS Basics -1.0.0en

Geodetic Aspects

4.2. The GPS coordinate system

Although the earth may appear to be a

uniform sphere when viewed from

space, the surface is far from uniform.

Due to the fact that GPS has to give

coordinates at any point on the earth’s

surface, it uses a geodetic coordinate

system based on an ellipsoid. An

ellipsoid (also known as a spheroid) is a

sphere that has been flattened or

squashed.
An ellipsoid is chosen that most accu-

rately approximates to the shape of the

earth. This ellipsoid has no physical

surface but is a mathematically defined

surface.

There are actually many different ellip-

soids or mathematical definitions of the

earth’s surface, as will be discussed

later. The ellipsoid used by GPS is

known as WGS84 or World Geodetic

System 1984.
A point on the surface of the earth (note

that this is not the surface of the ellip-

soid), can be defined by using Latitude,

Longitude and ellipsoidal height.
An alternative method for defining the

position of a point is the Cartesian

Coordinate system, using distances in

the X, Y, and Z axes from the origin or

centre of the spheroid. This is the

method primarily used by GPS for

defining the location of a point in space.

An Ellipsoid

P

0

X

Y

Z

,Y

,Z

,X

Earth's Surface

Height

Latitude

Longitude

Defining coordinates of P by

Geodetic and Cartesian coordinates