Monitoring the Ionosphere and Neutral Atmosphere with...
Transcript of Monitoring the Ionosphere and Neutral Atmosphere with...
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
Monitoring the Ionosphere andNeutral Atmosphere with GPS
Richard B. Langley
Division of Atmospheric and Space Physics WorkshopFredericton, N.B. • 21-23 February 2002
Geodetic Research LaboratoryDepartment of Geodesy and Geomatics Engineering
University of New BrunswickFredericton, N.B.
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
Outline
• Introduction to GPS
• Current status
• Modernization
• The GPS Signals
• Atmospheric Propagation Delay
• Neutral Atmosphere
• Ionosphere
• Spaceborne GPS Limb Sounding
• Ionospheric Tomography
• Concluding Remarks
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
GPS Segments
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
GPS Constellation
Altitude: 20,200 km
Orbital Period: 12 hrs(semi-synchronous)
Orbital Plane: 55 degrees
Number of Planes: 6
Vehicles per plane: 4-5
Constellation size: >24 satellites (currently 28)
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
Generations of Satellites
Block I Prototype (test) satellites. 10 launched between 1978 and 1985. All retired.
Block II Initial operational satellites. 9 launched between1989 and 1990. 4 still functioning.
Block IIA Slightly modified Block IIs. 19 launched between 1990 and 1997. 18 still functioning.
Block IIR Replenishment satellites. 6 orbited to date. First in 1997. C/A code on L2 plus higher poweron last 12 satellites launched from 2003 onwards.
Block IIF Follow-on satellites. New civil signal at 1176.45MHz. First launch expected in 2005.
Block III Conceptual.
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
Block IIR Satellite
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
GPS Operation
MonitorStationGround
Antenna
Master ControlStation (Schriever AFB)
NavigationMessage
(SpacecraftTime andPosition)
24-satellite (nominal)constellation
L21227.6 MHz
C/A -codeP(Y)-code
L11575.42 MHz
Receiver Calculates3-D Location and
Time
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
GPS Modernization
• One goal is enhanced capabilities for civil users of GPS
• Civil benefits include:
– Selective Availability (SA) turned off on 2 May 2000
– Second civil frequency for ionospheric correction andredundancy
– Third civil signal for “safety of life” applications inprotected spectrum; more robust; also provides highaccuracy and benefits real-time applications
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
Selective Availability Switched Off
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
GPS Modernization Details
• Last 12 Block IIRs - Add second civil signal (C/A on L2)and new military signal (M-code). Provide more signalpower.
First modernized launch (Block IIR-M) - FY03
• First 6 Block IIFs (“IIF Lite”) - All of above capabilitiesplus new third civil signal in protected band (L5).
First Block IIF “Lite” launch - FY05
• At the current GPS satellite replenishment rate, all threecivil signals (L1-C/A, L2-C/A, and L5) will be available forinitial operational capability by 2010, and for fulloperational capability by approximately 2013.
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
Block IIF Satellite
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
Signal Modernization
1227 MHz 1575 MHz1176 MHzL2 L1L5
P(Y)P(Y)
C/AC/A
P(Y)P(Y)
C/AC/A
P(Y)P(Y)
P(Y)P(Y)
C/AC/A
P(Y)P(Y)
C/AC/A
P(Y)P(Y)
C/AC/AMM MM
Present Signal
Civil Non-AviationSignal (>2003)
Civil Aviation &New MilitarySignals (>2005)
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
Current GPS Signals
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
Observation Equations
P t t c dt t dt t I t T t trs
P( ) ( ) [ ( ) ( )] ( ) ( ) ( )= + − − + + +ρ τ εPseudorange:
Carrier phase:Φ
Φ
( ) ( )
( ) [ ( ) ( )] ( ) ( ) ( )
t t
t c dt t dt t I t T t N trs
=
= + − − − + + +
λ φ
ρ τ λ ε
t - signal reception timeλ - wavelengthc - speed of lightρ - geometric rangeτ - signal transit timedtr - receiver clock offset
dts - satellite clock offsetI - ionospheric delayT - tropospheric delayN - integer ambiguityεP - pseudorange noiseεΦ - carrier phase noise
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
Atmospheric Refraction
80 km
50 km
9-16 km
0 km
Ionosphere
Stratosphere
Tropopause
Troposphere
The
rmos
pher
eM
esos
pher
e
S′
S
τ = ∫ 1v
dSS
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
Phase and Group Delay
∆
Φ ∆
τ
τ
= − ′
=
= − ′
= − + − ′
= − + − ′
∫ ∫
∫ ∫
∫ ∫ ∫
∫ ∫ ∫
′
′
′
′
1 1
1
1
vdS
cdS
d c
n dS dS
n dS dS dS
dP n dS dS dS
S S
S S
S S S
g
S S S
( )
( )
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
Tropospheric Zenith Propagation Delay
Zenith Delay
T n r dr
N r dr
z = −[ ]
=
∫∫−
( )
( )
1
10 6
N KMM
PT
K KMM
eT
Ke
Td d
= + −
+1 2 1 3 2
where refractivity of air is given by (ignoring compressibility factors)
Hydrostatic “Wet”
N KPT
KeT
Ke
T= + +1 2 3 2
Dry Wetor
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
Slant Delay and PWV
T T m e T m ehz
h wz
w= +( ) ( )
mapping functions
zenith delays
Zenith hydrostatic delay computed from accurate surface pressure
Zenith wet delay (ZWD) estimated from GPS data
Pr ( )ecipitable Water Vapour PWV ZWD≈ ÷ 6
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
Precipitable Water Vapour from GPS
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
PWV from GOES Sounder
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
German GPS Met Network
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
Estimated Water Vapour Field
Integrated water vapour (IWV)= PWV • density of H2O
IWV(kg/m2)
15 August 200012:00 UT
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
Ionospheric Refractive Index
n X XY X XY
where
XNe
m fY
B em f
≅ − ± − − +( )
= =
112
12
18
14
1
41
21
2 2 2
2
20
20
cos cos
,
θ θ
π ε π
and θ is the angle between the direction of signal propagationand the geomagnetic field.
At the GPS L1 frequency, assuming N=1012, B0=0.5x10-4,θ=0,
n ≅ − × ± × − × − ×− − − −1 1 6 10 1 6 10 1 3 10 1 6 105 8 10 11. . . .
And so, to a good approximation: n = 1 - αN/f2 and ng = 1 + αN/f2
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
Phase Advance and Group Delay
ρ α ρ
ρ α ρ
α
Φ = ( ) = −
= −
= ( ) = +
= +
= ≅
∫ ∫
∫ ∫
∫
n dSN
fdS I
and
n dSN
fdS I
where If
N dSTEC
f
S S
P
S S
S
1
1
40 28
2
2
2 2.
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
Ionospheric Propagation Delay
If
f fP P
If
f fN N
L P L L P L L
L L L
122
22
12 1 2 1 2
122
22
12 1 1 2 2 1 2 1 2
( ) ( )
( ) ( )
=−
−[ ] +
=−
−( ) − −( )[ ] +
+
+
ε
λ λ εΦ ΦΦ Φ
Phase levelling:
I I
w I I
w
j
jn
n
j P j
j
jn
n= −
−[ ]=−
=−
∑
∑Φ
Φ
2
2
2
2
, ,
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
Ionospheric Shell Model
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
Ionospheric Shell Model
I t M e a t a t d a t d b brs
rs
r r rs
r rs
rs( ) ( ) ( ) ( ), , ,= ( ) + +[ ] + +0 1 2λ φ
stochastic parameters
difference inlongitudes ofpierce pointand Sun
difference ingeomagneticlatitudes ofpierce pointand receiver
receiver bias
satellitebias
mappingfunction
observable
M er e
r hE
E
( )cos= −+( )
−
12 2
2
1
2 e - elevation anglerE - mean Earth radiush - shell height
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
IGS Tracking Network
288 stations on 20 February 2002
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
Global TEC Map from IGS Data
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
WAAS Ionospheric Grid
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
Low Latitude Ionosphere Studies
South American Network• 37 stations from the IGSand RMBC (BrazilianNetwork for ContinuousMonitoring of GPS)• Map shows 23 of thestations
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
TEC Maps - St. Swithin’s Day Storm
Mean TEC 22:00 UT, 15 July 2000Mean TEC 22:00 UT, 14 July 2000
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
Ionospheric Scintillation Monitoring
Phase scintillation at Calgary on 22 March 2001
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
Spaceborne GPS Limb Sounding
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
CHAMP
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
Initial CHAMP Neutral Atmosphere Results
CHAMP datataken over theSouth Atlantic on 11 February 2001
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
Initial CHAMP Ionosphere Profile
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
Ionospheric Tomography
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
Concluding Remarks
• Monitoring and mapping the atmosphere is yet another application ofGPS
• Regional GPS networks are being established with the expressedpurpose of measuring atmospheric properties with the aim of introducingGPS-derived parameter values into weather models
• GPS techniques can contribute to our understanding of space weather
• Several GPS limb-sounding satellite missions have flown with more inthe planning stages including e-POP
• GPS modernization as well as other global navigation satellite systems(GLONASS, Galileo) will further enhance radiometric techniques forstudying the Earth’s atmosphere
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Geodetic Research Laboratory • Department of Geodesy and Geomatics Engineering • University of New Brunswick
RBL/DASP20 Feb. 02
Acknowledgements
Slide Organization3 The Aerospace Corporation4 Jet Propulsion Laboratory6 Lochheed Martin Space Systems9 U.S. SPACECOM11 The Boeing Company12 A.J. Van Dierendonck19 University Corporation for Atmospheric Research20 National Oceanic and Atmospheric Administration21 GeoForschungsZentrum Potsdam22 GeoForschungsZentrum Potsdam28 Jet Propulsion Laboratory33 A.J. Van Dierendonck and Q. Hua34 GeoForschungsZentrum Potsdam35 GeoForschungsZentrum Potsdam36 GeoForschungsZentrum Potsdam37 National Observatory of Athens