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Differential correction – Trimble Outdoors SPSX51 User Manual

Page 182

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Glossary

1 80 SPSx51 Modular GPS Receivers User Guide

datum

Also called geodetic datum. A mathematical model designed to best fit the geoid,
defined by the relationship between an ellipsoid and, a point on the topographic
surface, established as the origin of the datum. World geodetic datums are typically
defined by the size and shape of an

ellipsoid

and the relationship between the center of

the ellipsoid and the center of the earth.

Because the earth is not a perfect ellipsoid, any single datum will provide a better
model in some locations than in others. Therefore, various datums have been
established to suit particular regions.

For example, maps in Europe are often based on the European datum of 1950 (ED-50).
Maps in the United States are often based on the North American datum of 1927
(NAD-27) or 1983 (NAD-83).

All GPS coordinates are based on the

WGS-84

datum surface.

deep discharge

Withdrawal of all electrical energy to the end-point voltage before the cell or battery is
recharged.

DGPS

See

real-time differential GPS

.

differential
correction

Differential correction is the process of correcting GPS data collected on a

rover

with

data collected simultaneously at a

base station

. Because the base station is on a known

location, any errors in data collected at the base station can be measured, and the
necessary corrections applied to the rover data.

Differential correction can be done in real-time, or after the data has been collected by

postprocessing

.

differential GPS

See

real-time differential GPS

.

DOP

Dilution of Precision. A measure of the quality of GPS positions, based on the geometry
of the satellites used to compute the positions. When satellites are widely spaced
relative to each other, the DOP value is lower, and position accuracy is greater. When
satellites are close together in the sky, the DOP is higher and GPS positions may
contain a greater level of error.

PDOP

(Position DOP) indicates the three-dimensional geometry of the satellites. Other

DOP values include

HDOP

(Horizontal DOP) and VDOP (Vertical DOP), which

indicate the accuracy of horizontal measurements (latitude and longitude) and
vertical measurements respectively. PDOP is related to HDOP and VDOP as follows:
PDOP2 = HDOP2 + VDOP2

dual-frequency GPS

A type of receiver that uses both

L1

and

L2

signals from GPS satellites. A

dual-frequency receiver can compute more precise position fixes over longer distances
and under more adverse conditions because it compensates for ionospheric delays.

EGNOS

European Geostationary Navigation Overlay Service. A satellite-based augmentation
system (SBAS) that provides a free-to-air differential correction service for GPS.
EGNOS is the European equivalent of

WAAS

, which is available in the United States.

elevation mask

The angle below which the receiver will not track satellites. Normally set to 10 degrees
to avoid interference problems caused by buildings and trees, atmospheric issues, and
multipath errors.

ellipsoid

An ellipsoid is the three-dimensional shape that is used as the basis for mathematically
modeling the earth’s surface. The ellipsoid is defined by the lengths of the minor and
major axes. The earth’s minor axis is the polar axis and the major axis is the equatorial
axis.