OSDPD Functional Re-alignment
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Overview of Current and Future NOAA Polar Satellite Systems Vince Tabor Office of Satellite Data Processing and Distribution Asian Pacific Satellite Data Exchange and Utilization Meeting Seoul, June 1-3, 2005
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Overview of Current and Future NOAA Polar Satellite Systems Vince Tabor Office of Satellite Data Processing and Distribution Asian Pacific Satellite Data Exchange and Utilization Meeting Seoul, June 1-3, 2005. OSDPD Functional Re-alignment. OSDPD. Satellite Services Division Dave Benner - PowerPoint PPT Presentation
Transcript of OSDPD Functional Re-alignment
Overview of Current and Future NOAA Polar Satellite Systems
Vince Tabor
Office of Satellite Data Processing and Distribution Asian Pacific Satellite Data Exchange and
Utilization Meeting Seoul, June 1-3, 2005
Satellite ServicesDivision
Dave Benner
- Product Transition and Implementation- Prototype Operations- NCEP/JCSDA/ORA Interface- NIC
Program ManagementDivision
Barbara Banks
- Office wide Program Management- Strategic Planning- Budget Formulation- Performance Measures- OSD Interface
Information ProcessingDivision
Reginald Lawrence
- OSDPD CIO- GOES/POES Processing - Data Distribution- IT Support Contract
OSDPD Functional Re-alignment
OSDPD
A New Era was Launched May, 20 2005
NOAA-18 Visible Image May 21, 2005
Upcoming Launches
POES Spacecraft Launch Readiness or Need Date
Planned Launch Date
METOP-2 (am) November 2005 April 2006
NOAA-N’ (pm) June 2007 December 2007
METOP-1 (am) March 2010 August 2010
Constellation Configuration• NOAA-17 (6/24/02)
– Primary AM satellite– GACS– LACs– HRPT on STX-3 (high frequency)– APT
• NOAA-16 (9/21/00)– Primary PM satellite– GACs – LACs – HRPT on STX-1 (low frequency)– No APT
• NOAA-15 (5/13/98)– Backup AM satellite– GACs– No LACs (downlink constraint)– HRPT on STX-2 (middle frequency)– No APT
• NOAA-14 (12/30/94)– Backup AM satellite
– No GACs (No AVHRR)
– No LACs
– HRPT on STX-3 (high frequency)
– No APT
• NOAA-12 (5/14/91)– Standby satellite
– No GACs
– No LACs
– HRPT on STX-1 (low frequency)
– APT
NOAA-15
N-14
2019A (drift= +4.1 min/mo)N-12
1648A (drift=-+0.55 min/mo)
1817A (drift = -2.0 min/mo)
Sun
1200Local noon
NOAA-16
1430A (drift=+2.1min/mo)
NOAA-17
2224A (drift=+0.2 min/mo)
Constellation ConfigurationNOAA-18
1400 Expected
DATA HANDLING
THERMAL CONTROL
COMMUNICATIONS
ATTITUDE DETERMINATION AND CONTROL
ELECTRICAL POWER
COMMAND ANDCONTROL
NOAA 17 Primary AM
NOAA 16Primary PM
NOAA 15Backup AM
NOAA 14Standby AM
NOAA 12Standby AM
NOAA 11Standby PMSUBSYSTEM
POES On-Orbit StatusSpacecraft Bus (as of 4/20/05)
(* indicates situation change from previous report)
G
G
G
G
G
G
G
G
G
G
G
G
Y
G
G
G
G
Y
G
G
G
G
Y
G
G
G
G
G
G
G
Y
R
Y
Y
Y
Y
Y
Y
Operational – Capable of meeting all requirements
Degraded (Limited operational use) – Capable of meeting some, but not all requirements
Failed – Unable to meet requirements
* Nominal mode
TCE3 Failed
Gyro3 problem
Shunt problem
STX3 low power
Y
TIP1&2 problem TIP Analog drift
Gyro3 problem Gyro3 problem
DTR5 Inop* DTR-1 degraded
* VTX-1 On
MSUMicrowave Sounding Unit
AMSU-BAdvanced Microwave Sounding Unit B
AMSU-A2Advanced Microwave Sounding Unit A2
AMSU-A1Advanced Microwave Sounding Unit A1
HIRSHigh Resolution Infrared Sounder
AVHRRAdvanced Very High Resolution Radiometer
NOAA 17NOAA 16NOAA 15NOAA 14NOAA 12NOAA 11SUBSYSTEM
POES On-Orbit StatusInstruments (as of 4/20/05)(* indicates situation change from previous report)
G
G
Y
Y
G
G
G
G
G
Y
R
Y
Y
Operational – Capable of meeting all requirements
Degraded (Limited operational use) – Capable of meeting some, but not all requirements
Failed – Unable to meet requirements
G
Y
R
R
R
R
R
G
R
YR
G
R
Y
Watch List
* TCE24 Off* Scan Motor test
SEMSpace Environment Monitor
SBUVSolar Backscatter Ultraviolet Radiometer
SARPSearch and Rescue Processor
SARRSearch and Rescue Repeater
DCSData Collection Subsystem
SSUStratospheric Sounding Unit
NOAA 17NOAA 16NOAA 15NOAA 14NOAA 12NOAA 11SUBSYSTEM
POES On-Orbit StatusInstruments (cont)
G GG
G
G
G
G
G
G
G
G
G
Y
R
Y
Operational – Capable of meeting all requirements
Degraded (Limited operational use) – Capable of meeting some, but not all requirements
Failed – Unable to meet requirements
R
G
Y G Y Y
GGG
Y
G GG
R Y
• On April 28, a new Preprocessor and 1b format was implemented – Code Modified to Incorporate
• New MHS Code
• Field of View (FOV) size change for HIRS
• HIRS calibration and format changed
• AMSU-A calibration and format changed
• AVHRR format changed
• Other 1b/1b* format changes
NOAA-N Changes
• MHS/MIU Issues– MHS and AMSU-B Differences
• Channels Frequency are Similar– Channels with different frequency
» H2 and 17
» H5 and 20
• Number of warm target PRTs– MHS has 5
– AMSU-B has 7
• Different Algorithms for Calibration
• 1b/1b* format similar
NOAA-N Changes
• MHS/MIU Issues– Understanding different modes
• Nominal modes
• Non-nominal modes
• MIU nominal modes
• MIU non-nominal modes
– Accommodating different modes• Set flag for Nominal and Non-
Nominal modes– Operational nominal modes 99% of
time
NOAA-N Changes
• HIRS Issues– Field of View Size Change for HIRS
• HIRS/4 10KM FOV compared to HIRS/3 20KM FOV
– Users may need to change software, especially where co-location with other sensors such as AVHRR
– Patch Temperature changed from 100 to 95K
– Added a 5th Internal Warm Target temperature sensor and third telescope temperature sensor
– Added extra bit to the electronic serial number in the Digital A data stream Element 63 Bits 40-44
• Software change
• Bits redefined in 1b
NOAA-N Changes
• HIRS Issues (Cont.)– Software Correction for the Operational HIRS
Lunar Intrusion detection
– HIRS Calibration Algorithm Version 4.0
• New algorithm introduced to replacement old operational HIRS calibration algorithm
NOAA-N Changes
• AMSU-A Issues– Correction of Lunar contamination
• Required minor change to 1b format– Header and Data record
• Plan to move detection to Earth location Software
– Correction for sudden jumps in the calibration counts (NOAA-17 Channel 3 anomaly)
• Required minor change to 1b format– Header and Data record
NOAA-N Changes
• AVHRR Issues– Change to AVHRR Scaling Factors for
some of the AVHRR nonlinear radiance coefficients
– IR Operational/Test Cal Channel 4 coefficient 3
– IR Operational/Test Cal channel 5 Coefficient 3
NOAA-N Changes
• New Telemetry File– File contains telemetry that is not
contained in instrument 1b• Will be useful for MIU data when in Non-
nominal modes
• All telemetry data will now be archived
– File uses AIP 1a file format
NOAA-N Changes
• Incorporation of CLAVR-X flags to AVHRR 1bs– Prototype and timing tests complete
Additional Preprocessor Enhancement
• On April 28, Moved Preprocessing System from Amdahl Enterprise Server to IBM p655 (AIX Distributed Scalable Power processor(SP))– Improved Processing Speed
– Reduced Processing Cost
New Data Processing Platform
• Reason for change– Current Front End Processor (FEP) is out dated
– Need to Allow Ingest of Metop CCSDS data (Phase 2)
• Acceptance testing with user community was suspended due to interface problems encountered with Satellite Operations Control Center(SOCC) systems
• Internal testing and system modifications are underway• Will resume testing with user community once
modifications and internal testing are completed • Plan to transition to AFEP soon after
Advanced Front End Processor (AFEP)
Implementation (Phase 1)
• IPD will move to new NOAA Satellite Operations Facility (NSOF) – Scheduled to begin moving equipment August time
frame
– Scheduled to begin moving staff October time frame
– Plan to complete transition by January
– No interruption to service planned
Move to New Facility
• Blind Orbit Support for KLM series– OSD is investigating avenues for obtaining blind
orbits for KLM series of satellites
Schemes for Improved Data Timeliness
GAC LAC
HRPT SAIP STIP
Svalbard CDA
ESPC
IJPS NOC
GFT
EUMETSAT DARMSTADT
SOCC SUITLAND
DOMSAT
GDS
MHRPT
AUX – CDF, OSV, Cal Parms
IJPS System Overview
BGAC, SAIP, STIP
BGDS MHRPT
EUMETSAT Level 1’s
BGAC, SAIP, STIP
Wallops CDA
Fairbanks CDA
GDS
NOAA NN’ Data
EUMETSAT Data
AUX – 4LE, CDF, Cal Parms
IJPS, IPSOverview of Upgrades for Metop
• New Ingestor and Advanced Front End Processor (AFEP) needs to be upgraded to allow
– Ingest of common instrument data, from the GDS as CCSDS VCDUs, in pipeline mode
– Frame synchronizing and filtering of GDS data at Ingest
– Receipt and distribution of ASCAT, GOME and GRAS Level 1b and IASI Level 1c products
– Ingest of blind orbit GAC, in pipeline mode
IJPS, IPSOverview of Upgrades for Metop(Cont.)
• Preprocessor needs to upgraded to
– Process blind orbit GAC in pipeline mode
– Produce common instrument Level 1b’s from Metop in pipeline mode
– Produce new Full Resolution GAC (FRAC)
SOCCCommunication
Center
Workstation
ESPCIngestor
ESPCPreprocessor
Quality FlagsCalibrationEarth LocationReformatting -L1a to L1b
Decommutationof AVHRR & AIPReformatting - L0 to L1a
Frame Synced *TDM Raw Data Stream
AVHRR 1a and AIP 1a
*TDM = Time Division Multiplex
PGD and AAS
Instrument Level 1b’s
Current POES Ingest and Preprocessing Flow
*TDM = Time Division Multiplex**CCSDS = Consultative Committee for Space Data Systems Granule sizes vary
SOCCCommunication
Center
Workstation
ESPCNew Ingestor
ESPCNew Preprocessor
Quality FlagsCalibrationEarth LocationReformatting -L1a to L1b
DecommutationPacket ExtractionReformatting - L0 to L1a
Frame Synced *TDM Raw Data Stream
WITHIN 2 minutes AVHRR granules AMSU-A granulesHIRS granulesMHS granulesSBUV granulesSEM granules[A]DCS granulesSAR granules
PGD and AAS
WITHIN 3 minutesInstrument Level 1b’s
NOAACommunication
Interface
**CCSDS and Blind GAC Raw Data Streams
IJPS Era Ingest and Preprocessing Flow
GOME
ASCAT
IASI
GRAS
IJPS, IPSProducts from Metop
• Day 1 – replace current ops– AVHRR– AMSU-A– HIRS– MHS– SEM– [A]DCS– SAR– GOME
• Day 2
– ASCAT
– IASI
– GRAS
• Receive ASCAT, GOME, GRAS 1b data from Eumetsat
• Receive full resolution ASCAT 1b file from Eumetsat– May elect to perform L0 processing for ASCAT
• Receive IASI 1c Data from Eumetsat– Plan to generate PCs and reconstructed radiance
– May generate cloud cleared radiances in future
Eumetsat Unique Instrument Processing
Plans
