Post on 29-Jan-2016
description
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NOAA/NESDIS Operational Data Workshop
September 2011
NOAA/NESDISOffice of Satellite Products and Operations
8/30/2011 Strawman
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Agenda
• Earthquake/Hurricane Post Report• Data and Products Exchange Summary• Current Distribution NSOF/CIP• GOES Report• Polar Support
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NOAA/NESDIS and OSPO
• NOAA/NESDIS acquires and manages the Nation's operational environmental satellites, operates the NOAA National Data Centers, provides data and information services including Earth system monitoring, performs official assessments of the environment, and conducts related research.
• The Office of Satellite and Product Operations (OSPO) is part of NOAA/NESDIS and is a newly created Office formed by merging the Office of Satellite Data Processing and Distribution (OSDPD) and the Office of Satellite Operations (OSO).
• OSPO operates environmental satellites and generates and distributes products from domestic and international environmental satellites.
• Information about OSPO and the products that its generates can be found at the follow website:– http://www.ospo.noaa.gov/
• Information about the products generated at the OSPO can be found at the Satellite Product End-to-End Documentation System (SPEEDS) site below:– http://www.ngdc.noaa.gov/speeds/
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OSPO, OSD and STAR
• OSPO works closely with the Office of Systems Development (OSD) and the Center for Satellite Application and Research (STAR).
• OSD builds systems that it deliveries to OSPO to run operationally.• STAR is the science arm of NESDIS and works to transition science
from research to operations. Most of the OSPO algorithm development and testing is done by STAR.
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NOAA/NESDIS Operational DAPE Support
• NOAA/NESDIS maintains the Data Acquisition, Processing and Exchange (DAPE) Gateway at the NOAA Satellite Operates Facility (NSOF) Building in Suitland and its Critical Infrastructure Protection (CIP) site at Wallops Island, VA.
• Using this Gateway, NOAA/NESDIS distributes 46 data products to DAPE Partners over the DAPE DATMS-U/OTN network.
• This Gateway is also used to obtain products from DoD partners for distribution to the civilian community (i.e. National Weather Service)
• DAPE operational support functions and data product descriptions are documented in the Technical Reference -1 to the Environmental Satellite Data Annex (ESDA TR-1). – This document is maintained and published by NOAA/NESDIS with a limited
distribution among the DAPE Partners (AFWA, FNMOC, NAVOCEANO, NOAA/NESDIS, NOAA/NWS/NCEP/JCSDA, and OFCM (JAG/ODAA)).
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Current DAPE Satellite Data Products Exchange
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Issue: Earthquake Effects• Issues:
– On August 23 a 5.9 magnitude earthquake struck the region requiring evacuation of the NSOF
– NSOF facilities suffered cosmetic damage (current assessment)– 20 ESPC racks within the computer room shifted, 4 substantially– No injuries but 1 person was hit on the head by a small piece of falling
debris– No issues or damage at WCDAS
• Actions:– Evacuation of facility with non-essential personnel sent home– Quick sweep of building found no major damage or safety concerns– NSOF operations continued with minimal essential people – Damage to court yards prompted GSA complete facility assessment
• GSA deemed NSOF safe for occupancy
– Safety Report filed for person who was hit on the head• Status:
– Areas of cosmetic concern within the facility have been isolated and blocked off from access
– ESPC rack adjustments pending
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Issue: Hurricane Effects
• Issues:– On August 27, Hurricane Irene Hurricane Irene left behind a wide
swath of damage from North Carolina to Maine.– NSOF facilities received no damage aside from water leaks in roof– WCDAS facility built to withstand Cat 2 hurricane, no issues
• Status:– WCDAS optimized hurricane rated (HR) antennas during event for
GOES 12 (operating in eclipse) and 13 Operations– FCDAS provided operations for GOES 11, loss three images and
one sounder during the transition from WCDAS to FCDAS – configuration error, training plan implemented to provide more proficiency
– Personnel deployed from WCDAS were deployed to WBU as precaution but no handover to this resource necessary
– The Data Collection System (DCS) domestic satellite functions were moved to the Wallops backup at the NSOF
– Nominal configurations were reestablished on August 28
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Highlights: Tropical Support for TPC
SAB personnel provided tropical support to the National Hurricane Center in Miami for Atlantic Hurricane Irene.
– SAB satellite analysts provided 42 storm position and intensity estimates derived from the Dvorak technique and six microwave-based intensity estimates.
– Thirty-five Ensemble Tropical Rainfall Potentials (ETrap) were also provided during the event.
GOES-East infrared image of Hurricane Irene at 0215 UTC, Aug. 26, 20119
Highlights: Precipitation Support for WFOs
SAB personnel provided precipitation support to Puerto Rico, the US Virgin Islands and the Eastern Seaboard for heavy rainfall and flooding from Hurricane Irene.
– SAB satellite analysts provided 30 Satellite Precipitation Estimates (SPENES), 17 satellite graphical products and 13 satellite rainfall estimates from August 21-28 in support of NWS Forecast Offices (WFOs) and River Forecast Centers (RFCs).
– In addition, SAB provided at least 4 briefings a day and numerous consultations to the NCEP Hydrometeorological Prediction Center (HPC)
GOES-based Satellite Precipitation Estimate graphics for Puerto Rico (left) and New England (right).10
NSOF Power
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Current NOAA/NESDIS Operational Support and Data Products
Distribution • NOAA/NESDIS acquires and manages operational environmental
satellites, the NOAA National Data Centers, and provides data and information services (Go to: http://www.nesdis.noaa.gov/SatProducts.html and
http://www.osdpd.noaa.gov/ml/cip/html• NOAA/NESDIS distributes 46 data products to DAPE Partners over the
DAPE DATMS-U/OTN network.• DAPE operational support functions and data product descriptions are
documented in the Technical Reference -1 to the Environmental Satellite Data Annex (ESDA TR-1).
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GOES-15
GOES-15 in moving West to replace GOES-11 as the GOES-W.
GOES-15 is scheduled to replace GOES-11 on December 22.
• NWS uses the SXI and XRS on GOES 15– SXI experienced an anomaly during activation and recovered– Recommendation to keep it in full operation to avoid future
occurrences– GOES 15 requires twice a year yaw flip around equinox
• This requires data outages that are minimal
• Would rather have this requirement on the West and not East Satellite
GOES-13/14/15 have similar instruments to GOES-8-12, but on a different spacecraft bus.
Spring and fall eclipse outages will be avoided by larger onboard batteries.
Improved navigation.
Improved radiometrics.
Similar stray light to GOES-13/14
GOES-8/12
GOES-13/14/15
GOES-15 Science Test
Unique GOES-15 Imager Visible data from GOES-15 Science Test
30-min1-min15
• To the right is an image generated from GOES-15 science test data (test occurred in the summer of 2010).
• Comparisons with AIRS and IASI have found a bias of Imager bands 3 and 6. This has been mitigated by shifting the Spectral Responses.
• Image was generated using Unique 1-minute rapid scan imagery.
GOES-R Mission Overview
• GOES-R scheduled to launch 2015 ~ operate thru 2030• Two GOES-R satellites will operate at 75⁰W & 137⁰W• Instrument Suites include:
-- Advanced Baseline Imager (ABI)
-- Space Environment In-Situ Suite (SEISS)
-- Solar Ultra Violet Imager (SUVI)
-- Extreme Ultra Violet/X-Ray Irradiance Sensor (EUV/EXIS)
-- Geostationary Lightning Mapper (GLM)
-- Magnetometer (MAG)• Wide variety of sensor-related data products (see GOES-R URL:
http://www.goes-r.gov/products/baseline.html for details.
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GOES-R Operational Improvements
• Spacecraft – Operate through all stationkeeping and housekeeping activities increases coverage
• Imager (ABI) – Improved resolution (4x), faster coverage (5x), more bands (3x), & more coverage simultaneously.
• Lightning Detection (GLM) -- Continuous coverage of total lightning flash rate over land & water.
• Solar/Space Monitoring (SUVI, EXIS, SEISS, MAG) – Better imager (UV over X-Ray) and improved heavy ion detection, adds low energy electrons & protons.
• Unique Payload Services (UPS) – Higher data rates for Environmental Data Relay (GRB, EMWIN, LRIT, DCS); continued Search & Rescue (SARSAT).
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POES ProgramOperational Spacecraft
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• Current Status:– NOAA-19: Primary PM Spacecraft
• Advanced Data Collection System (A-DCS) issue
• NOAA turned off the A-DCS transmitter on November 13, 2009
• re-activation may occur following further investigation of FCC regulations
• AMSU-A1: Channel 8 out of spec as of early-January 2010
• MHS: Channel H3 out of spec as of July 25, 2009
• SBUV: Lamp Calibrations halted as of April 9, 2011
• reduced long term product quality assessment capability
– MetOp-A: Primary mid-AM Spacecraft• AMSU-A1: Channel 7 lost
• out of spec as of January 2009
• no signal as of December 2009
• MHS: Channels 3 and 4 approaching 1.0 K NEdT spec
• Channel 3 expected to be out of spec in September, 2011
– NOAA-18: Secondary PM Spacecraft
• HIRS: intermittent spikes in the channels 1-12 (LWIR) data
CIP Failover
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ESPC-CIP Phase 3 Failover Successfully Performed on August 16th
– MPLS OC-12 Telecommunications line declared operationally ready on August 8th– Test Readiness Review conducted on August 9th
– Window of approximately 3 hours allowed for MPLS failover to CIP – Initial attempt to failover on August 11th was aborted due to a firewall problem
– Once the problem was fixed the Network Team worked through the weekend to update their failover procedure
– Second attempt on August 16th was successful– All products at CIP were verified and operations remained at the backup for
approximately 10hrs– Coordinated effort between multi-disciplined technical team in addition to customer
coordination– Any issues identified by Product Area Leads were promptly addressed by either
the Network Leads or System Leads– Frequent checkpoints with NCEP, NWS, and other users– Checklists and procedures were followed and updated during each step of the
transfer– A list of CIP supported products can be found at
– http://www.osdpd.noaa.gov/ml/cip/html
Activities/Accomplishments
Fairbanks Satellite Operations Facility (FSOF)
Move COMPLETED!
Final acceptance checklists were reviewed and signed off by FCDAS 8/31.
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EUMETSAT Report
• NOAA/Eumetsat examine options for routing of China Meteorological Admin data through EUM
• FY-3 A/B satellites – polar orbiters
• DTS too small, separate path being sought
• Current Status: – MetOp-B is scheduled to launch April 2012 – MetOp-C will be launched 4.5 years after MetOp-B
– Recent failure on Soyuz might impact launch date
– Eumetsat indicated plan to keep Metop-A operational until launch of Metop C
– would continue to provide METOP A data when METOP B becomes primary– OSPO will survey users to obtain rqmts before going forward with official request
– EPS-SG– Transition from MetOp to EPS-SG scheduled in 2020– NOAA is not going to provide an LLI, SEM-N nor CERES for this
satellite– For Official Use Only –
Metop-A AHRPT Coverage Extension
• On January 18, Eumetsat extended the coverage area of Metop-A AHRPT– NOAA requested that Eumetsat extend Metop AHRPT coverage to
help mitigate the loss of NOAA-17 AVHRR scan motor
– Eumetsat had implemented a turn-on turn-off strategy for the backup AHRPT transmitter after the failure of the primary transmitter
• This strategy was implemented in the hope of preventing this transmitter from failing
– ESPC is now receiving Metop AHRPT data from Miami, Ewa Beach and Monterey
• Will go operational with these data soon
– ESPC plans to also start generating products from Metop AHRPT data collected at Wallops CDA
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Antarctic Data Acquisition (ADA) Mission Overview
• To improve timeliness reception of METOP Global Data Stream (GDS) data EUMETSAT is now using the McMurdo station for ADA data recovery– Antenna resource shared by JPSS
• ADA implementation makes use of a ½ orbit dumps from McMurdo (when scheduled) and ½ orbit files from Svalbard (SVL)
• Dumps at ADA place data at the NOAA Gateway 49 minutes earlier than when McMurdo is not used.
• Since the start of routine ADA operations, the average 1b latency for the MetOp-A Part 1 McMurdo orbits is 73 minutes. Latency for Part 2 Svalbard orbits is approximately 100 minutes and latency for full orbit Svalbard orbits is 184 minutes.
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ADA Mission Overview [continued]
NDE Product Scope
• Original: NPP, NPOESS C-1 and NPOESS C-2 (2006-2016)
Top 3 Products Delivery Date
ATMS Radiances 2012
Sea Surface Temperatures 2012
CrIS Radiances 2012
• Current Scope: NPP and GCOM-W1 and JPSS-1 (2011-2016)
Top Products Delivery Date
ATMS radiances (BUFR) July 2012
Sea Surface Temperature (BUFR) Jan 2013
CrIS Thinned Radiances (BURR) July 2012
Ozone Profiles (BUFR) Apr 2013
Initial VIIRS Radiances (BUFR) July 2012
AMSR-2 Radiances Dec 2013 26
NDE Product (continued)
Current Scope: NPP, GCOM-W1 and JPSS-1 (2011-2016)
Top Products Delivery Date
Blended Snow Cover (GRIB-2) June 2013
Aerosol Optical Thickness (BUFR) Apr 2013
VIIRS Polar Winds (BUFR) Oct 2012
Green Veg. Fraction (GRIB-2) Dec 2012
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GCOM Overview
− The Japan Aerospace Exploration Agency (JAXA) Global Change Observation Mission Water (GCOM-W) 1 planned launch date is approx February 2012
− GCOM-W1 carries the AMSR2 (Advanced Microwave Scanning Radiometer 2), an instrument to observe water-related targets such as precipitation, water vapor, sea surface wind speed, sea surface temperature, soil moisture and snow depth
− GCOM-W satellite will provide NOAA continuity for Advanced Microwave Scanning Radiometer (AMSR) data from NASA’s AQUA satellite
− Partnership with Japan will allow continuity for cost of ground station equipment and operation at Svalbard, Norway to collect all 14 GCOM W1 revolutions per day
− AMSR-2 will serve as a potential substitute for the NPOESS Microwave Imager Sounder (MIS) now planned for DWSS
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User Benefits• AMSR-2 Benefits:
– AMSR-2 will provide continuity of oceanographic and maritime meteorological data currently provide by NASA's Aqua satellite.
– Provides valuable data for numerical weather prediction in areas over the open oceans which subsequently impact medium to long range weather forecasting in coastal regions.
– Precipitation data from this instrument will aid tropical and extratropical forecasting of major storm systems threatening human safety, and damage to coastal infrastructures
– Global microwave imaging have also been identified by the National Academies of Science Decadal Survey as critical to our understanding of the ocean-atmosphere interactions driving global climate change.
– AMSR-2 will provide intercalibration opportunities with other microwave imagers to develop consistent microwave measurements need for weather and climate applications
– AMSR-2 will provide vital observations in support of improving understanding, planning and environmental protection in the Arctic
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Current AMSR-E Products
Observational Parameter NOAA Other US Govs Others
Brightness Temps NCEP ECMWF, UKMO, JMA, MeteoFrance, BMRC
Total Precipitable Water NCEP, NWS/WFOs Navy, AF, NASA ECMWF, UKMO, JMA, MeteoFrance, BMRC
Cloud Liquid Water NCEP, NWS/WFOs Navy, AF, NASA ECMWF, JMA, MeteoFrance, BMRC
Rain Rate NCEP, NWS/WFOs Navy, AF, NASA ECMWF, UKMO, JMA, MeteoFrance
Snow Water Equivalent Internet
Emissivities NCEP, NWS/WFOs Navy, AF, NASA ECMWF, UKMO, JMA, MeteoFrance, BMRC
Surface Type NCEP, NWS/WFOs Navy, AF, NASA ECMWF, UKMO, JMA, MeteoFrance, BMRC
Vegetation Water Content NCEP, NWS/WFOs Navy, AF, NASA ECMWF, UKMO, JMA, MeteoFrance, BMRC
Soil Moisture NCEP, NWS/WFOs Navy, AF, NASA ECMWF, UKMO, JMA, MeteoFrance, BMRC
Snow and Sea Ice Cover Internet
Sea Surface Temp NCEP, NWS/WFOs Navy, AF, NASA ECMWF, UKMO, JMA, MeteoFrance, BMRC
Ocean Surface Wind Speed NCEP, NWS/WFOs Navy, AF, NASA ECMWF, UKMO, JMA, MeteoFrance, BMRC, Internet
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Oceansat-2India [ISRO]
• Future Plans for Oceansat-2 (ISRO)
– Launched September 2009
– NOAA is in discussion with India and EUMETSAT for near real-time access to the Ocean Color Monitor and the Scanning Scatterometer data
• Current plan is for the level 0 OSCAT data to be downlinked at Svalbard, relayed to ISRO for processing to level 1b, 2a, and 2b, retransmitted to EUMETSAT, and then relayed through the existing IJPS link from Darmstatdt, Germany to the ESPC.
• The feasibility of this plan is being evaluated based on OSPO resources.
• OSPO anticipates being operational in 2014.
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Korean COMS-1
• Korean Communications Ocean and Meteorological Satellite-1 (COMS-1) Geostationary Ocean Color Imager (GOCI) and Meteorological Imager (MI) launched April 2010.
• COMS-1 MI and GOCI data will provide increased SST and ocean color coverage the WPAC.
• COMS-1 will also be used in atmospheric data assimilation for NWP models and tactical Tropical Cyclone/Focus imagery web pages.
• The METOC models and enhance operational readiness.• OSPO SSD is investigating acquiring COMS-1 data
– Not clear on requirement for these data• MTSAT-2 is the current operational Geostationary Satellite in that area.• MTSAT-1R is the backup satellite.
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Take Aways
• GOES-15 is moving West to replace GOES-11 as GOES West– Should result in Improved satellite performance
• GOES-R will be launched in 2015 – Satellite will be equipped with improved instrument suite and improved
data handling.
• NPP will be launched Oct. 25, 2011– NOAA plans to use the NDE system to generate NOAA unique products
• GCOM– NOAA is planning to acquire GCOM data and generate products
• OceanSat-2– NOAA is anticipating acquiring OceanSat-2 data
• If successful, products are anticipated to be available in the 2014 time frame
• Korean COMS – NOAA is investigating acquiring but needs requirement for these data
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Backup Slides
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Old Metop-A AHRPT Coverage Area
New Metop-A AHRPT Coverage Areas
MetOp-A Half Orbit data from the Antarctica Data Acquisition
(ADA) Station at McMurdo
• McMurdo Station – Ross Island• 77.5°S (similar in Latitude to Svalbard)• 166.6°E (below Australia/New Zealand)
Reference for Map: Capt Gaber, Defense Weather Systems Directoratehttp://directreadout.noaa.gov/miami11/docs/5.9_Gaber_DWSD.pptxReference for Image: http://www.eumetsat.int/Home/Main/News/Features/807695?l=en
Operational Processing and Delivery began June 10, 2011
ADA Benefit to Users
MetOp-A ADA provides excellent latency benefits for all periods as demonstrated below
1) When a Svalbard 1/2 orbit precedes a McMurdo 1/2 orbit, the following timeliness improvements result in 1b data:– 55 minutes for the 1st granule – 80 minutes for the 6th granule – 37 minutes for the 7th granule – 35 minutes for the 13th granule
(end of orbit) – 120 minutes for 1st half of orbit – 35 minutes for 2nd half of orbit
SVL CDA – Svalbard Command & Data Acquisition ADA – Antarctica Data Acquisition
ADA Benefit to Users
SVL CDA – Svalbard Command & Data Acquisition ADA – Antarctica Data Acquisition
2) When a Svalbard full orbit precedes a McMurdo 1/2 orbit the following timeliness improvements result in 1b granule and 1b orbital data: – 20 minutes for the 1st granule – 42 minutes for the 6th granule – 37 minutes for the 7th granule – 35 minutes for the 13th granule
(end of orbit) – 85 minutes for 1st half of orbit – 35 minutes for 2nd half of orbit
3) The Metop-A Near Real-Time (NRT) products (e.g. GOME) see a 50 minute (50%) improvement at the 1st granule and a 40 minute (57%) improvement at the last granule
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Geostationary Operational Environmental Satellite (GOES)
Performance StatusSeptember 7, 2011
Payload Instrument
GOES-11(West)
Launch: May 00Activation: Jun 06
GOES-12(S. America)
Launch: Jul 01Activation: Apr 03
GOES-13(East)
Launch: May 06Activation: Apr 10
GOES-14(Storage)
Launch: Jun 09
GOES-15(Standby)
Launch: Mar 10
Imager G Y (12) G G G
Sounder G Y (3) G G Y (10)
Energetic Particle Sensor (EPS) G Y (4) G G Y (11)
Magnetometers G G G G G
High Energy Proton and Alpha Detector (HEPAD) G G G G G
X-Ray Sensor (XRS) R (1) R (5) R (7) G G
Solar X-Ray Imager (SXI) N/A R (6) Y (8) G G
Spacecraft Subsystems
Telemetry, Command & Control G G G G G
Attitude and Orbit Control G G G G G
Inclination Control G R (9) G G G
Propulsion G G G G G
Mechanisms G G G G G
Electrical Power Y (2) G G G G
Thermal Control G G G G G
Communications Payloads G G G G G
Key Operational
Operational with limitations
Non-operational
Not Applicable
G
R
Y
N/A
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Geostationary Operational Environmental Satellite (GOES)
Performance StatusSeptember 7, 2011
GOES-11Failure Within
Lifetime
Failure Beyond Lifetime
Action Taken Impacts
1. X-Ray Sensor (XRS) Positioner failed
GOES-11 XRS operational but can’t accurately be pointed at sun
Using GOES-15 spacecraft to receive solar x-ray data
No user impacts
2. Degraded battery capability during eclipse periods
In 2008, SAR, SEM, and DCS payloads were turned off during eclipse periods to preserve battery capability
Temporary interruption of GOES-11 SAR, SEM and DCS payloads during eclipse periods if needed
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Geostationary Operational Environmental Satellite (GOES)
Performance StatusSeptember 7, 2011
GOES-12Failure Within
Lifetime
Failure Beyond Lifetime
Action Taken Impacts
3. Sounder filter wheel currents elevated and shortwave channels noisy
User has been notified Causes are under investigation
Elevated motor currents caused filter wheel out of sync and data dropout Noisy data in shortwave channels
4. Energetic Particles Sensor (EPS) channels noisy
User has adjusted forecasting procedures
Degraded space environment data
5. XRS Positioner failed
GOES-12 XRS operational but can’t accurately be pointed at sun
Using GOES-15 spacecraft to receive solar x-ray data
No user impacts
6. Solar X-Ray Imager (SXI) failed
High-voltage power supply failed – No recovery possible
User not able to receive solar x-ray dataGOES-12 SXI flown as demonstration instrument
9. No fuel remaining for inclination control maneuver
Ground system modification to mitigate image motion at slightly inclined orbit
Spacecraft can not maintain precision orbit
Ground fix allows extended operational life
12. Imager Cycle Slip Occurred periodically
Developed a pseudo-telemetry to detect the anomaly for quick correction response
Corrupt or loose 2 to 3 images for each cycle slip event
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Geostationary Operational Environmental Satellite (GOES)
Performance StatusSeptember 7, 2011
GOES-13Failure Within
Lifetime
Failure Beyond Lifetime
Action Taken Impacts
7. XRS capacitor short
Performed tests on GOES-O & P sensors to ensure failures will not be repeatedUsing GOES-15 spacecraft to receive solar x-ray data
No x-ray space environment measurements possible from GOES-13No user impacts
8. SXI detector damage due to flare
Modified flight software to implement safing of SXI to prevent permanent damage
User impacts, 9 rows currently affected out of 512 total
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Geostationary Operational Environmental Satellite (GOES)
Performance StatusSeptember 7, 2011
GOES-15Failure Within
Lifetime
Failure Beyond Lifetime
Action Taken Impacts
10. Sounder roll blanket raised above cooler
User has been notified Yaw flip at Equinox to keep Sun angle below cooler plane
Data outage and degraded products during each yaw flip maneuver and 28 hours of INR recovery period
11. MAGED telescope 7 channels are noisy
User has been notified Use GOES-13 MAGED as prime data source
MAGED Telescope 7 channels 1 and 2 are noisy during high temperature season
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Polar Operational Environmental Satellite (POES)Performance Status
September 6, 2011
Spacecraft Subsystems METOP-A NOAA-19 NOAA-18 NOAA-17 NOAA-16 NOAA-15
Launch Date Oct 2006 Feb 2009 May 2005 Jun 2002 Sep 2000 May 1998
Operational Date May 2007 Jun 2009 Aug 2005 Oct 2002 Mar 2001 Dec 1998
Mission Data Category Primary (AM) Primary (PM) Secondary (PM) Secondary (AM) Secondary (PM) Secondary (AM)
Payload Instruments
AVHRR G G G R (8) Y(12) Y(19)
HIRS G G R (3) G Y(13) R (5)
AMSU-A1 G G G R (4) Y(14) Y(20)
AMSU-A2 G G G G G
AMSU-B N/A N/A N/A O (7) G Y (11)
MHS G Y (6) G N/A N/A N/A
SEM G G G G G G
SBUV N/A S/C (9) G G Y(15) N/A
Spacecraft Subsystems
Telemetry, Command & Control G G G G G G
ADACS G G G G Y(16) Y (10)
EPS G G G G G G
Thermal Control G G G G G Y(21)
Communications Y (1) G G G G Y(22)
APT/LRPT R (2) G G G R(17) G
SAR G G G G Y(18) Y(23)
Operational GG GSpacecraft Issue but No User Impact S/C
Operational with Limitation Y Operational with Degradation O
Non-Operational RR
Not Applicable N/A
Color Key: Calibration Nominal Loss of Redundancy/Degraded Loss of Mission Capability
UNCLASSIFIED/FOUO* Denotes Solid State Recorder (SSR) POC: Watch Officer (301-502-1509)
UNCLASSIFIED/FOUODMSP Spacecraft Status
Flight Number F-13 F-14 F-15 F-16 F-17 F-18Operations Number 47 48 49 54 51 53LTAN (+/- 5 Mins) 1805 1531 1623 1819 1737 2012Launch Date 3/24/1995 4/4/1997 12/12/1999 10/18/2003 11/4/2006 10/18/2009Spacecraft Subsystems [Bus]Command & Control Power Attitude Control Communications Strategic MissionVisible/IR Imager (OLS)
Individual Recorder Status 1 2 1 2 1 2* 1* 2* 1* 2* 1* 2*
3 4 3 4 3 4* 3* 4* 3* 4* 3* 4*
Microwave Imager/Sounder (SSMI/SSMIS) Microwave Temp Sounder(SSMT1)
Microwave Water Vapor Sounder(SSMT2) Tactical Mission
Transmitter Status DDT PDT1 DDT PDT1 DDT PDT1 DDT PDT1 DDT PDT1 DDT PDT1
PDT2 PDT2 PDT2 PDT2 PDT2 PDT2
Space Environment MissionX/Gamma Ray Detector(SSB-X family) Magnetometer (SSM) Ionosphere (SSI-ES2/-ES3) Electron/Proton (SSJ4/SSJ5) UV Limb Imager (SSULI)
UV Spectrographic Imager (SSUSI)
CAO: 6 Sep 11