zero,,g single and double difference analysis of gps and...
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Zero, single and double difference , ganalysis of GPS and GIOVE-A/B L1 and L5/E5a pseudo range and carrier h tphase measurements
H. van der Marel, P.F. de Bakker, ,C.C.J.M. Tiberius
4-3-2010
Challenge the future
DelftUniversity ofTechnology
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OverviewOverview
• Short and zero baseline measurements
Part I• Part I• Analysis of L1 pseudo range noise for GPS, GIOVE A/B and EGNOS• Analysis of L1 carrier phase noise for GPS, GIOVE A/B and EGNOS• Conclusions
• Part IIPart II• Analysis of L5 pseudo range noise for GIOVE A/B and GPS 01• Conclusions
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Short baseline measurement in field near Delft with simultaneous tracking to GIOVE A and B.
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Short Baseline
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Zero baseline
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2ZD and ZD - Code-minus-phase - G18 - Receiver in field
21:40 21:45 21:50 21:55 22:00-2
0C-L
[m]
zero difference
21:40 21:45 21:50 21:55 22:00
1L]
time differenced
21:40 21:45 21:50 21:55 22:00-1
0
[C
-L[m
]
40
45
/N0
-Hz]
21:40 21:45 21:50 21:55 22:0035
40
UTC 6-July-2008
C/
[dB
measured C/N0
Stand alone receiver code-minus-phase observations for GPS PRN 18. Both the zero differenceobservations and the measured C/N0 show a periodic effect, most likely caused by multipath. The timedifferenced observations do not show these variations but the variance of the noise does change withth C/N
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the C/N0.
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Standard Deviation - Code-minus-phase - Receiver in fielddata segment: 120s
1 6
1.8
2
GPSGALILEO
EGNOS
1.2
1.4
1.6]
0.194*10-(C/N0-45)/20
0.139*10-(C/N0-45)/20
0.591*10-(C/N0-45)/20
0.8
1
C-L
[m
]
0.4
0.6
30 32 34 36 38 40 42 44 46 48 500
0.2
C/N [dB Hz]
Standard deviation of code-minus-phase versus measured C/N0 of standalone receiver for datasegments of 120s after removing instrumental delays, ambiguities, and low frequency multipath andionospheric delay. The standard deviation for a C/N0 of 45 dB-Hz is estimated by fitting an exponential
C/N0 [dB-Hz]
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curve.
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Analysis and grouping of the results• Short and zero baseline measurements were used to
determine the measurement noise of GPS, EGNOS and GIOVE A/B d d i h b tiGIOVE-A/B pseudo range and carrier phase observations, under real operational conditions.
• Zero, single, double and time differences were used to estimate the different stochastic properties of the observations, and group the estimated stochastic properties according to their noise properties.properties according to their noise properties.
• Were able to group the different results into 4 groups.• See Table on next slide…
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Normalized standard deviations of the code noise in meters for C/N0 = 45 dB-Hz for each GNSS andmultiple analyses techniques. The results are grouped in 4 groups based on noise characteristics.
Analysis Thermal noise GPS Galileo EGNOSAnalysis Thermal noise… GPS Galileo EGNOS
Standalone & Short baseline + multipath 0.20 0.14 0.59
Standalone & Short baseline; Time difference
- time correlation 0.10 0.07 0.39
Zero baseline - common LNA noise 0.11 0.06 0.21
Zero baseline; - time correlationZero baseline;Time difference - common LNA
noise0.07 0.04 0.16
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Zero baseline (LNA) cross-correlation, time correlation and thermal noise (without multipath) asdetermined from Table on previous slide.
Group GPS Galileo EGNOS
Time correlation [-] 3 and 4 0.63 0.56 0.46
LNA correlation [-] 2 and 4 0 57 0 77 0 85LNA correlation [ ] 2 and 4 0.57 0.77 0.85
Thermal noise [m] 2, 3 and 4 0.18 0.12 0.57
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Results
• The Galileo E1BC signal has less thermal noise (σ=±.12m) than GPS L1C/A (σ=±.18m) and EGNOS signals ( 5 )(σ=±.5m).
• There is significant time correlation on the code gobservations (.4<ρΔ<.6)
• Code and phase observations show strong cross-• Code and phase observations show strong crosscorrelation (.5<ρLNA<.9) for the zero baseline setup.
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Short Baseline
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Ambiguity ResolutionAmbiguity Resolution
Zero baseline Short baselineZero baseline Short baseline
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D bl Diff C i PhDouble Difference Carrier Phase
Zero baseline DD phase observations, Doppler
offsets and receiver clock rates
Short baseline DD phase observations,
Doppler offsets and receiver clock rates
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Short baseline DD phase observations, ΔDD phase observations and measured C/N0
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Short baseline ΔDD phase observations versus measured C/N0
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L5 Tracking (Part II)
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LR2G
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LR2G
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LR2G
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LR2G
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LR2G
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Conclusions
• The Galileo E1BC signal has less thermal noise (σ=±.12m) than GPS L1C/A (σ=±.18m) and EGNOS signals ( 5 )(σ=±.5m).
• There is significant time correlation on the L1 code observations (.4<ρΔ<.6) ( ρ )
• L1 Code and phase observations show strong cross-correlation (.5<ρLNA<.9) for the zero baseline setup.
• The L1 phase observations perform very similar for all three systems (σ<1mm).
• L5 code noise is much smaller than L1 both for GPS and GIOVE A/B
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