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On User Algorithms for GNSS Precise Point Positioning
Peter de Bakker
Mathematical Geodesy and Positioning
Research output
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Thesis
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Dissertation (TU Delft)
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INIS
accuracy
31%
algorithms
100%
atmospheres
6%
budgets
6%
carriers
50%
comparative evaluations
6%
convergence
12%
correlations
18%
data
43%
detection
18%
dynamics
12%
equations
6%
errors
50%
geometry
25%
gps
6%
hydrostatics
6%
hypothesis
25%
ionosphere
100%
levels
6%
loading
6%
modeling
12%
monitoring
12%
navigation
100%
noise
12%
oceans
6%
orbits
37%
performance
18%
positioning
100%
power
6%
precision
12%
prediction
12%
probability
6%
processing
6%
relativistic range
6%
satellites
100%
signal-to-noise ratio
6%
size
6%
slip
31%
solids
6%
solutions
25%
stochastic processes
18%
surfaces
6%
testing
18%
tide
6%
troposphere
12%
values
12%
variations
18%
wind
6%
Earth and Planetary Sciences
Accuracy
27%
Agreement
5%
Approach
16%
Area
5%
Aspect
5%
Autoregressive Process
11%
Clock
33%
Condition
11%
Convention
5%
Cycle
5%
Delay
66%
Description
16%
Detection
16%
Earth
5%
Earth Tide
5%
Ellipsoid
5%
Error
38%
Estimate
16%
Estimating
11%
Geometry
22%
Global Positioning System
5%
GNSS
100%
Hydrostatics
5%
Hypothesis
5%
Hypothesis Testing
11%
Ionosphere
88%
Ionospherics
5%
Loop
5%
Model
100%
Modeling
11%
Need
11%
Null Hypothesis
5%
Order
5%
Outlier
5%
Parameter
22%
Planetary Atmosphere
5%
Real Time
11%
Receiver
5%
Relativistic Effect
5%
Shape
11%
Show
5%
Signal to Noise Ratios
5%
Site
5%
Solid Earth
5%
Starting
5%
Statics
11%
Station
16%
Time Series
11%
Troposphere
11%
Variation
16%
Engineering
Pseudorange Measurement
7%