Computing Local Tropospheric Models for Colombia Based on ... · Computing Local Tropospheric...
Transcript of Computing Local Tropospheric Models for Colombia Based on ... · Computing Local Tropospheric...
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Computing Local Tropospheric Models forColombia Based on GNSS Data
I. Herrera-Pinzon, L. Tellez-Pedroza, W. Martınez Dı[email protected]
Geodesy GroupColombia
Buenos Aires, 2009
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Focus of the Study
♁ Significant variations of atmospheric parameters (temperature, pressureand water vapor) along Colombian mountainous areas
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Focus of the Study
♁ Significant variations of atmospheric parameters (temperature, pressureand water vapor) along Colombian mountainous areas
X Degradation of Tropospheric Refraction into heights obtained by GNSS
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Focus of the Study
♁ Significant variations of atmospheric parameters (temperature, pressureand water vapor) along Colombian mountainous areas
X Degradation of Tropospheric Refraction into heights obtained by GNSS
\ Goal: Approximation to calculation of Zenith Tropospheric Delay (ZTD)based on GNSS
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Impact of ZTD on GNSS
[ With respect to microwaves tropospheric delay is not frequency-dependent
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Impact of ZTD on GNSS
[ With respect to microwaves tropospheric delay is not frequency-dependent
' The magnitude of the tropospheric delay is the same for both L1 and L2observations, and for pseudo-range and carrier phase measurements
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Impact of ZTD on GNSS
[ With respect to microwaves tropospheric delay is not frequency-dependent
' The magnitude of the tropospheric delay is the same for both L1 and L2observations, and for pseudo-range and carrier phase measurements
Z There is significantly less tropospheric delay at high altitude than at sealevel
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Impact of ZTD on GNSS
[ With respect to microwaves tropospheric delay is not frequency-dependent
' The magnitude of the tropospheric delay is the same for both L1 and L2observations, and for pseudo-range and carrier phase measurements
Z There is significantly less tropospheric delay at high altitude than at sealevel
♀ The tropospheric delay can be predicted using values of temperature,pressure, and humidity, input into one of a number of atmosphericrefraction models
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Impact of ZTD on GNSS
[ With respect to microwaves tropospheric delay is not frequency-dependent
' The magnitude of the tropospheric delay is the same for both L1 and L2observations, and for pseudo-range and carrier phase measurements
Z There is significantly less tropospheric delay at high altitude than at sealevel
♀ The tropospheric delay can be predicted using values of temperature,pressure, and humidity, input into one of a number of atmosphericrefraction models
Y For surveys of less than a few tens of kilometers in extent, thetropospheric delay will tend to be the same at both ends of a baseline
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Impact of ZTD on GNSS
[ With respect to microwaves tropospheric delay is not frequency-dependent
' The magnitude of the tropospheric delay is the same for both L1 and L2observations, and for pseudo-range and carrier phase measurements
Z There is significantly less tropospheric delay at high altitude than at sealevel
♀ The tropospheric delay can be predicted using values of temperature,pressure, and humidity, input into one of a number of atmosphericrefraction models
Y For surveys of less than a few tens of kilometers in extent, thetropospheric delay will tend to be the same at both ends of a baseline
♂ Neglecting to apply tropospheric refraction results in an absolute scaleerror (absolute troposphere biases) and wrong station heights (relativetroposphere biases)
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Theory
' The tropospheric path delay ∆ is defined by
∆ =
Z
(n − 1) ds = 10−6
Z
Ntrop
ds
where n is the refractive index and N trop is called refractivity
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Theory
' The tropospheric path delay ∆ is defined by
∆ =
Z
(n − 1) ds = 10−6
Z
Ntrop
ds
where n is the refractive index and N trop is called refractivity
☼ It is possible to separate N trop into a dry and a wet component
Ntrop = N
trop
d + Ntropw
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Theory
' The tropospheric path delay ∆ is defined by
∆ =
Z
(n − 1) ds = 10−6
Z
Ntrop
ds
where n is the refractive index and N trop is called refractivity
☼ It is possible to separate N trop into a dry and a wet component
Ntrop = N
trop
d + Ntropw
♀ We may write
∆ = ∆d + ∆w = 10−6
Z
Ntrop
d ds + 10−6
Z
Ntropw ds
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Theory
' The tropospheric path delay ∆ is defined by
∆ =
Z
(n − 1) ds = 10−6
Z
Ntrop
ds
where n is the refractive index and N trop is called refractivity
☼ It is possible to separate N trop into a dry and a wet component
Ntrop = N
trop
d + Ntropw
♀ We may write
∆ = ∆d + ∆w = 10−6
Z
Ntrop
d ds + 10−6
Z
Ntropw ds
♂ The tropospheric delay is written as the product of the delay in zenithdirection and a mapping function
∆ = f (z) ∆0
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TheoryX It is better to separate mapping functions for the dry and the wet part of
the troposphere∆ = fd(z) ∆
0
d + fw (z) ∆0
w
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TheoryX It is better to separate mapping functions for the dry and the wet part of
the troposphere∆ = fd(z) ∆
0
d + fw (z) ∆0
w
Y First order mapping function
fd(z) ≃ fw (z) ≃ f (z) ≃1
cos z
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TheoryX It is better to separate mapping functions for the dry and the wet part of
the troposphere∆ = fd(z) ∆
0
d + fw (z) ∆0
w
Y First order mapping function
fd(z) ≃ fw (z) ≃ f (z) ≃1
cos z
Z Saastamoinen Model
∆ =0,002277
cos z
»
p +
„
1255
T+ 0,05
«
e − tan2z
–
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IGAC Approach
♁ ZWD and ZTD were determined at local stations
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IGAC Approach
♁ ZWD and ZTD were determined at local stations
' Software used: Bernese
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IGAC Approach
♁ ZWD and ZTD were determined at local stations
' Software used: Bernese
♀ Network configuration:
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IGAC Approach
♁ ZWD and ZTD were determined at local stations
' Software used: Bernese
♀ Network configuration:
1. MAGNA-ECO Stations (25)
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IGAC Approach
♁ ZWD and ZTD were determined at local stations
' Software used: Bernese
♀ Network configuration:
1. MAGNA-ECO Stations (25)2. Homogeneus distribution along Colombian mountains
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IGAC Approach
♁ ZWD and ZTD were determined at local stations
' Software used: Bernese
♀ Network configuration:
1. MAGNA-ECO Stations (25)2. Homogeneus distribution along Colombian mountains3. Sampling interval: 1 sec
![Page 24: Computing Local Tropospheric Models for Colombia Based on ... · Computing Local Tropospheric Models for Colombia Based on GNSS Data I. Herrera-Pinz´on, L. T´ellez-Pedroza, W. Mart´ınez](https://reader033.fdocuments.us/reader033/viewer/2022041902/5e616d8602b2a11a2741473e/html5/thumbnails/24.jpg)
IGAC Approach
♁ ZWD and ZTD were determined at local stations
' Software used: Bernese
♀ Network configuration:
1. MAGNA-ECO Stations (25)2. Homogeneus distribution along Colombian mountains3. Sampling interval: 1 sec4. Cut-off angle: 3 degrees
![Page 25: Computing Local Tropospheric Models for Colombia Based on ... · Computing Local Tropospheric Models for Colombia Based on GNSS Data I. Herrera-Pinz´on, L. T´ellez-Pedroza, W. Mart´ınez](https://reader033.fdocuments.us/reader033/viewer/2022041902/5e616d8602b2a11a2741473e/html5/thumbnails/25.jpg)
IGAC Approach
♁ ZWD and ZTD were determined at local stations
' Software used: Bernese
♀ Network configuration:
1. MAGNA-ECO Stations (25)2. Homogeneus distribution along Colombian mountains3. Sampling interval: 1 sec4. Cut-off angle: 3 degrees
♂ ZWD and ZTD were calculated from GNSS Slant Total Delay with Niellmapping functions
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IGAC Approach
♁ ZWD and ZTD were determined at local stations
' Software used: Bernese
♀ Network configuration:
1. MAGNA-ECO Stations (25)2. Homogeneus distribution along Colombian mountains3. Sampling interval: 1 sec4. Cut-off angle: 3 degrees
♂ ZWD and ZTD were calculated from GNSS Slant Total Delay with Niellmapping functions
X ZWD and ZTD were calculated each 2 hours
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IGAC Approach
♁ ZWD and ZTD were determined at local stations
' Software used: Bernese
♀ Network configuration:
1. MAGNA-ECO Stations (25)2. Homogeneus distribution along Colombian mountains3. Sampling interval: 1 sec4. Cut-off angle: 3 degrees
♂ ZWD and ZTD were calculated from GNSS Slant Total Delay with Niellmapping functions
X ZWD and ZTD were calculated each 2 hours
Z Data were taken from GPS week 1520 (23.02.2009 - 01.03.2009)
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Results: ZWD Correction, Day 058 - 2H
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Results: ZWD Correction, Entire Week (1520)
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Results: ZWD Residuals (std. dev.), Day 058 - 2H
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Results: ZWD Residuals (std. dev.), Entire Week (1520)
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Results: ZTD, Day 058 - 2H
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Results: ZTD, Entire Week (1520)
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Results: Wet Component Time Series
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Conclusions and Future Activities
♁ Wet correction, < 0,3m, and dry correction, approx 2m
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Conclusions and Future Activities
♁ Wet correction, < 0,3m, and dry correction, approx 2m
♀ Highly variability (up to 0.5m) in space and time
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Conclusions and Future Activities
♁ Wet correction, < 0,3m, and dry correction, approx 2m
♀ Highly variability (up to 0.5m) in space and time
♂ Accuracy of ZTD is better than 1cm (a few milimeters)
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Conclusions and Future Activities
♁ Wet correction, < 0,3m, and dry correction, approx 2m
♀ Highly variability (up to 0.5m) in space and time
♂ Accuracy of ZTD is better than 1cm (a few milimeters)
Z The incorporation of the model allowed an improvement in the heightcomponent (up to 10 cm for baselines within 20 km)
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Conclusions and Future Activities
♁ Wet correction, < 0,3m, and dry correction, approx 2m
♀ Highly variability (up to 0.5m) in space and time
♂ Accuracy of ZTD is better than 1cm (a few milimeters)
Z The incorporation of the model allowed an improvement in the heightcomponent (up to 10 cm for baselines within 20 km)
\ Total monitoring (7/24) of local troposphere
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Conclusions and Future Activities
♁ Wet correction, < 0,3m, and dry correction, approx 2m
♀ Highly variability (up to 0.5m) in space and time
♂ Accuracy of ZTD is better than 1cm (a few milimeters)
Z The incorporation of the model allowed an improvement in the heightcomponent (up to 10 cm for baselines within 20 km)
\ Total monitoring (7/24) of local troposphere
[ Improving densification of MAGNA-ECO
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Conclusions and Future Activities
♁ Wet correction, < 0,3m, and dry correction, approx 2m
♀ Highly variability (up to 0.5m) in space and time
♂ Accuracy of ZTD is better than 1cm (a few milimeters)
Z The incorporation of the model allowed an improvement in the heightcomponent (up to 10 cm for baselines within 20 km)
\ Total monitoring (7/24) of local troposphere
[ Improving densification of MAGNA-ECO
' Incorporate metereological Data
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Thanks for your attention
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