the current status of madoca-ppp developmentgpspp.sakura.ne.jp/paper2005/aorws_2014_madoca.pdf ·...
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![Page 1: The Current Status of MADOCA-PPP Developmentgpspp.sakura.ne.jp/paper2005/aorws_2014_madoca.pdf · 2014-10-12 · The Current Status of MADOCA-PPP Development Tomoji TAKASU Tokyo University](https://reader036.vdocuments.us/reader036/viewer/2022081611/5f0264a17e708231d4040da1/html5/thumbnails/1.jpg)
The Current Status ofMADOCA-PPP Development
Tomoji TAKASU Tokyo University of Marine Science and Technology
Lighthouse Technology and Consulting Co. Ltd.,
Motoyuki MIYOSHI, Kaori KAWATE and Satoshi KOGUREJapan Aerospace Exploration Agency, Japan
The 6th Asia Oceania Regional Workshop on GNSS, October 9-11, 2014, Phuket, Thailand
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Contents• Status of MADOCA Development
• Improvement of Orbits and Clocks
• FCB Products for PPP-AR
• STEC/Tropos Product for Fast Convergence
• Future Work
2
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Status of MADOCADevelopment
3
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MADOCA
• For PPP service via QZSS LEX and L6b*– Many PPP applications over global area
– Providing sub-dm to cm-class accuracy
• Precise orbit/clock for multiple constellation GNSS– Key-technology for future precise positioning
– Over-100 satellites expected in near future
– GPS, GLONASS, QZSS and Galileo already supported, BeiDou planned
4
Multi-GNSS Advanced Demonstration toolfor Orbit and Clock Analysis
* under study
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PPP Applications
5
Automated Farming
Offshore Construction AutonomousDriving
Weather Forecast
Natural Hazard Mitigation
Mining MachineControl
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MADOCA-PPP via QZSS
6
GPS GLONASS Galileo QZSS
MGM-Net
MADOCA
PPP Users
LEX, L6b*
Precise Orbit/Clock Estimation
~ 1.7 Kbit/sReferenceStations
BeiDou
* under study
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R&D Activities for MADOCA• June 2011 - March 2013 (1st phase)
– Design and implementation of S/W from scratch
– Verification by post-processing and simulation
• April 2013 -– Broadcasting MT12 via QZSS-1 "Michibiki" LEX channel
– Support GPS, QZSS and GLONASS (Nov 2013 - )
• Feb 2014 - March 2016 (2nd phase)– Continuous improvement of accuracy, stability and
reliability on orbits and clocks
– Support BeiDou
– New features added: FCB and local-iono/trop products
– Multiple-sensor integration to PPP for severe environment
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Architecture (1st Phase)
8
MGM-Net EKF
Real-TimeI/F
Parameter Estimator
IGSetc
QZSSMCS
LSQ
MGPLOT MADOCA API
MGRTE
MGEST
RTCM,BINEX, Javad
LEXMT 12
RINEX,SP3, ERP
Data Interfaces Data Interfaces
LMG
OfflineDL
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MADOCA LEX Format
9
• Definition has been added in recent IS-QZSS as LEX MT12(IS-QZSS 1.6 draft, 5.7.2.2.5)
• Formats based on RTCM 3 SSR orbit, high-rate clock, DCBand URA with minor modification
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Improvement ofOrbit and Clock
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MADOCA Evaluation System (1)
• Objectives– Provide environment for long-term system test and track
existing and remaining issues
– Improve product quality (accuracy, stability and reliability) by tuning various optional parameters
– Verify newly implemented algorithms and models
– Accumulate operational experience for practical use
11
PP- and RT-Products
ProductMonitor and Evaluation
MADOCA
Continuous feed-back
Performanceevaluation,bug reports
Fix bugs,add new features
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MADOCA Evaluation System (2)
12
SVR-5for RT2-Product,Monitor
WWWNTRIPCaster
JAXANTRIP
IGS
Internet
R
SVR-4for RT1-Product,Monitor
SVR-3for PP-
Product,Monitor
SVR-2Work/
Re-Proc
SVR-1File
Server
CPU: Core i7 4770 (4-core/8-thread), RAM: 16GB,SSD: 120GB, HDD: 4TB or 8TB,
OS: Ubuntu 13.10 (64bit), gcc/gfortran 4.7, MKL 11.3
RT-ProductsPP-Products,QC-Monitor
reports
NTRIP/RTCM 3
HTTP
VPS
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MADOCA Evaluation System (3)
13
SVR-1SVR-2SVR-4 SVR-3SVR-5
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PP-Products
14
MGU (Ultra-rapid) MGR (Rapid) MGF (Final)
Update Interval 6H 24H 24H
Latency 1 - 31 H / 0 H 10 - 34 H 37 - 67 H
Est/Predict Arc 24H / 24H 24 H / - 3H + 24H + 3H / -
Satellites GPS, GLONASS, QZSS, (Galileo not yet included)
Products Oribit/Clock (SP3), Clock (RNX CLK), EOP, AMB, FCB
Sample Interval 300 s (SP3), 30 s (RNX CLK, FCB), 1 day (EOP)
Processing Time ~ 20 min ~ 30 min ~ 185 min
65 Stations for MGU 78 Stations for MGR 152 Stations for MGF
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Accuracy of PP-Orbits
15
MGF wrt IGR (GPS) MGF wrt IGV (GLONASS)
MGF wrt QZF (QZSS)
GPS Week 1811 (2014/9/21 - 27)
RMS (cm)
R A C 3D
GPS 1.08 1.04 1.03 1.82
GLO 1.58 4.17 4.07 6.04
QZSS 22.49 23.70 10.76 34.40
Orbit Error
R
A
C
1
-1
(m)
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PPP Accuracy with PP-Products
16Kinematic PPP with MGF, GPS Week 1811 (2014/9/21 - 27)
E
N
U
E
N
U
0.66
0.76
1.91
0.45
0.76
1.22
RMSEUCAL7
WTZ27
(cm)
0.2
-0.2
(m)
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RT-Product (1)
17
MGRT2
IGS/MGEX
MGM-Net
QZSS MS
JAXANTRIP
Control and Monitor
RTCM 3MSM
(Combined)
STRMONNTRIPCaster
MGRT1
RTCM 3SSR
RTCM 3,BINEX,JAVAD
*
*Telnet
*
WWWRTCM 3,SP3, RNX
CLKMGRTE
MGRTE RTCM 3,SP3, RNX
CLK
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RT-Product (2)
18
ProductMountPoint
ContentsRTCM MT Update
IntervalLatency
GPS GLO QZSS GAL
MGRT1MADOCA
_SSR1
Orbit 1057 1063 1246 -
30 s~ 5.3 s
Clock 1058 1064 1247 -
Code Bias - - - -
URA 1061 1067 1250 -
HR-Clock 1062 1068 1251 - 1 s
MGRT2MADOCA
_SSR2same as above by different settings
RT-Products Messages
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Ref. Stations for RT-Products
19
• QZSS-MS • MGM-Net • IGS • MGEX • Total
Station Position # of Valid Stations (latency < 5 s)
2014/10/05 00:00-24:00 GPST
60
80
40
20
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Accuracy of RT-Orbits
20
MGRT1 wrt IGR (GPS) MGRT1 wrt IGV (GLONASS)
MGRT1 wrt QZF (QZSS)
GPS Week 1811 (2014/9/21 - 27)
RMS (cm)
R A C 3D
GPS 2.66 5.60 4.57 7.70
GLO 2.71 7.73 7.87 11.36
QZSS 23.66 92.74 36.36 102.4
Orbit Error
R
A
C
1
-1
(m)
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PPP Accuracy with RT-Products
21Kinematic PPP with MGRT1, GPS Week 1811 (2014/9/21 - 27)
E
N
U
E
N
U
4.89
4.06
6.28
4.59
2.91
6.69
RMSEUCAL7
WTZ27
(cm)
0.2
-0.2
(m)
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Product Quality Monitor
22
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FCB Products forPPP-AR
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FCB Estimation for PPP-AR
• PPP-AR (ambiguity resolution)– Many research works in recent years (2007 - )
– AR improves accuracy and convergence time in PPP
• PP-FCB Products– ZD-L1/L2 fractional bias in phase observables
– GPS and QZSS (GLONASS not provided)
– Interval: 30 s
– Consistent to MADOCA PP-Orbit/Clock
• RT-FCB Products– Under development
– Expect to use extended RTCM 3 SSR messages
24
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PP-FCB Generation Flow
25
Orbit/Clock Estimation
Average SD-WL/NL FCB
Separate SD- to ZD-WL/NL FCB
Convert WL/NL to L1/L2 FCB
GENFCB
WL and LC Ambiguity
Fix WL/NL Ambiguity
ZD L1/L2 FCB Products
MGEST
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Example of PP-FCB Estimation
26
GPS Week 1811 (2014/9/21 - 27)
L1
L2
(cycle)
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PPP Accuracy with FCB
27Kinematic PPP, 2014/8/16 (24H, interval 30 s)
Vertical RMSE
Horizontal RMSE
PPP (GPS), PPP (GPS+QZS), PPP-AR (GPS), PPP-AR (GPS+QZS)
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STEC/Tropos Productsfor Fast Convergence
28
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STEC/Tropos Products
• Objectives– Fast convergence time of PPP solutions
– Single-frequency PPP for mass-market receiver users
• STEC Products– STEC (slant-TEC) estimation in PPP process
– 30 s interval product for each satellite-station pair
• Troposphere Products– Estimate ZTD and gradient in PPP process
– 30 s interval product for each station
• Interpolation to grid points (IGP/TGP) to broadcast
29
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STEC Estimation in PPP
30
• Slant iono-delay is derived from phase OBS - range,clock, tropos, bias and DCB terms
• Range, clocks, tropos term can be estimated in PPP process
• Ambiguity-resolved LC bias is separated to L1 and L2 by using WL biases
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Example of STEC Estimation
31
STEC
VTEC
2014/8/26 (24H, interval 30 s), GEONET Station 2110, Only GPS
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Convergence Time of PPP
32
Kinematic PPP, 2014/6/21 (1 H, interval 1 s), GEONET Station 2110
L1/L2, L1 with STEC, L1/L2 with STEC, L1/L2 with STEC/Tropos
E
N
U
(m) (min)
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Future Work• Orbit/Clock Products
– Improve accuracy, stability and reliability continuously
– Add BeiDou orbit/clock
• FCB Products
– Add RT-Products
– Support L5 FCB for triple frequency PPP-AR
• STEC/Tropos Products
– Add RT-Products
– Combine PPP-AR for much faster convergence
• Multiple-sensor integration to PPP
– INS-PPP integration for severe environment33