The term DOP means Dilution Of Precision and is a value of
probability for the geometrical effect on GPS accuracy
Several external sources introduce errors into a GPS position estimated by a GPS receiver. One important factor in determining positional accuracy is the constellation, or geometry, of the group of satellites from which signals are being received. DOP only depends on the position of the satellites: how many satellites you can see, how high they are in the sky, and the bearing towards them.
This is often refered to as the geometry. An indicator of the quality of the geometry of the satellite constellation is the Dilution of Precision or DOP.
The computed position can vary depending on which satellites are used for the measurement. Different satellite geometries can magnify or lessen the position error. A greater angle between the
satellites lowers the DOP, and provides a better measurement. A higher DOP indicates poor satellite geometry, and an inferior measurement cofiguration, or in other words: the lower the
value the greater the confidence in the solution.
Good Dilution of Precison
Poor Dilution of Precision
DOP is often divided up into components. These componets are used because the accuracy of the
GPS system varies. The satellites move, so the geometry varies with time, but it is very predictable.
GDOP is computed from the geometric relationships between the receiver position and the
positions of the satellites the receiver is using for navigation. GDOP Components are:
PDOP = Position Dilution of Precision (3D), sometimes the Spherical DOP.
HDOP = Horizontal Dilution of Precision (Latitude, Longitude). VDOP = Vertical Dilution of Precision (Height). TDOP = Time Dilution of Precision (Time).
While each of these GDOP terms can be individually computed, they are formed from covariances
and so are not independent of each other. A high TDOP (time dilution of precision), for example, will cause receiver clock errors which will eventually result in increased position errors.
Good GDOP, a small value representing a large unitvectorvolume, results when angles from
receiver to satellites are different. Wheras poor GDOP, a large value representing a small unit vectorvolume, results when angles from receiver to the set of SVs used are similar. Clustered satellites give
poor GDOP values.
A rule is: The higher the DOP, the weaker the geometry.
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