4 positioning modes of operation, 1 single-point or autonomous, 1 gps system errors – Novatel SMART ANTENNA User Manual

SMART ANTENNA User Manual Rev 6

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Chapter 4

Positioning Modes of Operation

The following single frequency modes of operation are described further in this chapter:

• Single Point or Autonomous

• Optional Satellite-Based Augmentation System (SBAS)

Refer to the GPS Overview section in the GPS+ Reference Manual, available on our website at

http://

www.novatel.com/Downloads/docupdates.html

,

for an overview of GPS positioning.

4.1

Single-Point or Autonomous

The SMART ANTENNA is capable of absolute single-point positioning accuracies of < 5 meters CEP (GDOP
< 2 with no multipath). See also the Performance specifications on Page 36 of Appendix A.

The general level of accuracy available from single-point operation may be suitable for many types of
applications that do not require position accuracies of better than 5 m CEP. However, increasingly more and
more applications desire and require a much higher degree of accuracy and position confidence than is possible
with single-point pseudorange positioning. This is where differential GPS (DGPS) plays a dominant role in
higher accuracy real-time positioning systems. Refer to the GPS Overview section in the GPS+ Reference
Manual, available on our website at

http://www.novatel.com/Downloads/docupdates.html

,

for an overview of

GPS positioning.

By averaging many GPS measurement epochs over several hours, it is possible to achieve a more accurate
absolute position.

The next section deals with the type of GPS system errors that can affect accuracy in single-point operation.

4.1.1

GPS System Errors

In general, GPS SPS C/A code single-point pseudorange positioning systems are capable of absolute position
accuracies of about 5 meters or less. This level of accuracy is really only an estimation, and may vary widely
depending on numerous GPS system biases, environmental conditions, as well as the GPS receiver design and
engineering quality.

There are numerous factors which influence the single-point position accuracies of any GPS C/A code
receiving system. As the following list will show, a receiver’s performance can vary widely when under the
influences of these combined system and environmental biases.

•

Ionospheric Group Delays – The earth’s ionospheric layers cause varying degrees of GPS signal
propagation delay. Ionization levels tend to be highest during daylight hours causing propagation
delay errors of up to 30 meters, whereas night time levels are much lower and may be as low as 6
meters.

•

Tropospheric Refraction Delays – The earth’s tropospheric layer causes GPS signal propagation
delays. The amount of delay is at the minimum (about three metres) for satellite signals arriving from
90 degrees above the horizon (overhead), and progressively increases as the angle above the horizon is
reduced to zero where delay errors may be as much as 50 metres at the horizon.

•

Ephemeris Errors – Some degree of error always exists between the broadcast ephemeris’ predicted
satellite position and the actual orbit position of the satellites. These errors will directly affect the
accuracy of the range measurement.

•

Satellite Clock Errors – Some degree of error also exists between the actual satellite clock time and
the clock time predicted by the broadcast data. This broadcast time error will cause some bias to the
pseudorange measurements.