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MAGNET Tools ver 1.0
88
and carrier phase measurements) of the base (or VRS) and a
rover with the specified level (in the rover receiver's option)
of vertical/horizontal positional accuracy. All ambiguities
have been fixed to integers.
- Fixed, Phase Diff, Degraded, mmGPS+: the solution is
computed using dual frequency measurements (L1/L2 GPS/
GLONASS code and carrier phase measurements) of the base
(or VRS), and a rover with the specified level (in the rover
receiver's option) of vertical/horizontal positional accuracy,
and the mmGPS aided. All ambiguities have been fixed to
integers.
- Float, Phase Diff : the solution is computed using dual
frequency measurements (L1/L2 GPS/GLONASS code and
carrier phase measurements) of the base (or VRS) and a
rover. All ambiguities are float numbers.
- Float, Phase Diff, mmGPS+: the solution is computed using
dual-frequency measurements (L1/L2 GPS/GLONASS code
and carrier phase measurements) of the base (or VRS), a
rover and mmGPS aided rover receiver. All ambiguities are
float numbers
- Float, Phase Diff, Degraded: the solution is computed using
dual frequency measurements (L1/L2 GPS/GLONASS code
and carrier phase measurements) of the base (or VRS) and a
rover with the specified level (in the rover receiver's option)
of vertical/horizontal positional accuracy. All ambiguities are
float numbers.
- Float, Phase Diff, Degraded, mmGPS+: the solution is
computed using dual frequency measurements (L1/L2 GPS/
GLONASS code and carrier phase measurements) of the base
(or VRS) and a rover with the specified level (in the rover
receiver's option) of vertical/horizontal positional accuracy.
The mmGPS aided rover receiver. All ambiguities are float
numbers.
- Code Diff: the solution is computed using L1 GPS/
GLONASS code measurements in positioning.