program overview and system architecture steven kirkner goes program manager may 10, 2004 goes...
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Program Overviewand
System Architecture
Steven KirknerGOES Program Manager
Program Overviewand
System Architecture
Steven KirknerGOES Program Manager
May 10, 2004GOES User’s Conference
Broomfield, Colorado
GOES-RGOES-R
AGENDAAGENDA
• Program Mission
• Program Challenges
• Program Requirements
• Program Improvements/Benefits
• Program Baseline
• Program Management
• Summary
GOES-RPROGRAM OFFICE
GOES-RPROGRAM OFFICE
Name Title Phone NumberExt Email Address
Kirkner, Steve GOES Program Manager 301-713-1055 161 [email protected]
Jenkins, Sarah GOES Secretary 301-713-1055 162 [email protected]
Carson, Andrew HES & SIS Acquisitions 301-286-0667 [email protected]
Carson, Elizabeth Acquisition Program Manager 301-713-1055 156 [email protected]
Coakley, Monica Mission Requirements 781-981-0616 [email protected]
Comeyne, Gus Space Segment Lead 301-713-1055 171 [email protected]
Dawkins, Stephen Budget Analyst 301-713-1055 166 [email protected]
Eckard, Maggie Budget Manager 301-713-0088 164 [email protected]
Flanagan, Dan ABI & SEISS Acquisitions 301-286-3387 [email protected]
Gray, Don Product Manager, Users Interface, 301-713-1055 160 [email protected] Requirements
Gurka, Jim Program Requirements 301-713-2789 [email protected]
Heymann, Roger Communications/Frequency Request 301-713-2789 [email protected]
Hurt Lisa Budget Analyst 301-713-0088 165 [email protected]
Linn, John Ground Acquisitions 703-610-1733 [email protected]
Madden, Michael System Engineer/Space 301-713-1055 172 [email protected]
May, Dan System Engineer/Integration 301-713-1055 157 [email protected]
McGinnis, Dave Frequency Request 301-713-2789 [email protected]
Miller, Eric NOSA Liaison 301-713-2789 [email protected]
Moore, Jay Contracting Officer 301-713-4751 [email protected]
Moses, Kesha Budget Analyst 301-713-0088 167 [email protected]
Prowell, John Document Manager 301-713-1055 154 [email protected]
Rad, Adrian Risk Manager 301-902-4660 [email protected]
Ryberg, Gus Ground Acquisitions 703-610-1733 [email protected]
Shere, Ken System Engineer/Ground 301-713-1055 169 [email protected]
Shipley, Les GroundSegment Lead 301-713-1055 170 [email protected]
Weinreb, Michael Calibration/Validation 301-713-1055 156 [email protected]
Zehr, David System Engineer/Integration 301-713-1055 155 [email protected]
GOES MISSIONGOES MISSION
• Satisfies national operational environmental requirements for 24 hour observation of weather, Earth’s environment, and solar and space environment
– Support storm-scale weather forecasting and numerical modelers
• To meet requirements, GOES continuously maintains operational satellites at two locations (75º West and 135º West)
– On-orbit spare ready in case of failure
• GOES-I Series (8-12) current operational series
• GOES-N Series (13-15) under contract
• GOES-R Series, follow-on continuity program to GOES-N Series, under design
GOES-10135o West
GOES-1275o West
On orbit spare
The Nation requires continuous availability of highly accurate, timely and reliable data of the United States to monitor events that may adversely affect lives and property, and the Nation’s environmental, national, homeland and economic security.
GOES-R is expanding support to improve characterization of the atmosphere, enhance space weather capabilities and increase resolution to monitor valuable coastal regions. GOES-R will provide improved understanding of climate variability and change through long-term trending. In addition. GOES-R environmental information enables safe and efficient transportation.
http://www.osd.noaa.govhttp://www.osd.noaa.gov
FY 2005 request emphasizes the end-to-end System Architecture, allowing industry to participate in NOAA’s future definition of architecture and infrastructure.GOES-R supports NOAA’s strategic goals: weather and water, climate, ecosystems, and commerce and transportation,.
NOAA SATELLITES AND INFORMATION SERVICEGEOSTATIONARY OPERATIONAL ENVIRONMENTAL
SATELLITES-R SERIES
NOAA SATELLITES AND INFORMATION SERVICEGEOSTATIONARY OPERATIONAL ENVIRONMENTAL
SATELLITES-R SERIES
CHALLENGE – SUPPORTING NOAA’S STRATEGIC OBJECTIVES
CHALLENGE – SUPPORTING NOAA’S STRATEGIC OBJECTIVES
• Ecosystem– Determine environmental impacts of
chaotic processes, i.e. diurnal ocean color as a function of tides
• Phytoplankton Blooms
• Surface Vegetation Fraction &Index
• Location of hazardous materials
• Upward Longwave Radiation
• Climate– Provide diurnal signature for weather and
climate prediction and analysis• Ozone Layers and SO2 Concentration
• Fires
• Land & Sea Surface Temperatures
• Cloud Profiles
• Weather and Water
– Real time weather data to accurately track and analyze severe weather events
• Temperature and Moisture Profiles
• Lightning Detection
• Wind Analysis
• Solar Weather
• Commerce
– Uninterrupted hemispheric observations and products for safe and efficient transportation and commerce systems
• Volcanic Ash
• Ice, Fog, Snow, and Wind
• Thunderstorm Detection
CHALLENGE – MAINTAIN DATA CONTINUITY
CHALLENGE – MAINTAIN DATA CONTINUITY
• Launch dates driven by need for 2 operational and at least 1 on-orbit spare at all times
• GOES-R must be launched by Oct 2012, in order to be sufficiently checked out and available as on-orbit spare when P is turned on (planned for Apr 2013)
• 12, N, P projected operations determine when R must be launched as spare – next scheduled update is 2008 (planned N turn on)
• 10, 11, O projected operations affect system availability percentage, but not R need date
Planned Activation Date Planned Launch Date Projected OperationsExtended Life Projected On-Orbit Storage No Spare
EAST GOES 8 GOES 12 GOES N GOES P GOES S
WEST ` GOES 10 GOES 11 GOES O GOES R
FY14 FY15FY02 FY03 FY04 FY05 FY06 FY07 FY08 FY13FY09 FY10 FY11 FY12
GOES R must be operationally available (launched and checked out) by this date to provide coverage in the event of an unexpected loss of O or P
CHALLENGE – BALANCED USER BENEFIT VS COST
CHALLENGE – BALANCED USER BENEFIT VS COST
• Balance improvements to satisfy evolving user needs with affordable system cost
• Include complete life cycle end-to-end costs in upfront planning to ensure decision makers have full understanding of system cost
• Develop architectures that cost effectively handle large volumes of data required by users
CHALLENGE – GROUND SEGMENT VOLUME
CHALLENGE – GROUND SEGMENT VOLUME
Current GOES
GOES-R
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STRATEGIESSTRATEGIES
• Perform Trade Studies against Requirements
• Evaluate Multiple Architecture Options
• Define End-to-End System Architecture– Space and Launch Segment– Command, Control and Communications (C3) Segment– Product Generation and Distribution Segment– Archive and Access Segment– User Interface and Assimilation Segment
• Structure Acquisition Approach with adequate Design & Risk Reduction and Development Phases for Spacecraft, Instruments and Ground Systems
• Develop Life Cycle Cost Targets
• Perform User Utility and Cost Benefit Analysis
• Manage Risk
• Ensure utilization of GOES R data from Day One
END-TO-END SYSTEM ARCHITECTURE
END-TO-END SYSTEM ARCHITECTURE
USERS
ERL Boulder,
COUSERS
GVAR User
WEFAX User
Real - Time DCS User
DCS Platform
National Severe Storm Forecast Center
National Hurricane Center
National Meteorological Center
National Weather Service Weather Forecast
Office
GINI
NOAA Other Gov’t Agencies Academia PrivateMediaOthers
NOAA Science Bldg. Camp Springs, MD
Environmental Satellite Data/Interactive
Processing Center (ESD/IPC)
Television, Radio
Airports
Flood, Fire Warning
Ocean Analysis
NESDISHeadquarters Suitland, MD
Satellite Operations
Control Center (SOCC)
Central Environmental
Satellite Computer System (CEMSCS)
SARSAT U. S.
Mission Control Center
Command and Data Acquisition Station Wallops Island, VA
DCS/WEFAX
Imager/Soundings
Telemetry/Commands
FEMA
AWIPS
NOAA Port
LEGEND:Data Collection System (DCS) Weather Facsimile (WEFAX)GOES Variable Format (GVAR)Raw Imager/Sounder DataSearch and Rescue (SAR)Multi - Use Data Link (MDL)Emergency ManagersInformation Network (EMWIN)TelemetryCommands
NOTE: Uplinks and downlinks are identical for GOES East and West.
GOES EASTGOES WEST
Network Control Facility
Silver Spring, MD
GPRD MRD
Aerosols
PrecipitationAtmospheri
c Profiles
Ocean
Space & Solar
Clouds
Land
Requirements
Atmospheric RadianceAtmospheri
c Winds
Coastal Waters & Estuaries
Hyperspectral Environmental Suite (HES)
Adv. Baseline Imager (ABI)
Solar Imaging Suite (SIS)
Space Env In-Situ Suite
(SEISS)
Coronagraph
Microwave Sounder/Imager
Instruments
GOES Lightning Mapper (GLM)
Baselin
e Instru
men
tsP
oten
tial P
3IHyperspectral Imager
Solar Irradiance Sensor
Oth
er U
sers
NWS
OAR
NOS
NMFS
NMAO
PPI
NOAA Users
NESDIS
Eco
syst
ems,
Wea
ther
& W
ater
, C
lim
ate,
C
om
mer
ce &
Tra
nsp
ort
atio
n
MAPPING REQUIREMENTS TO SYSTEM SOLUTIONS
MAPPING REQUIREMENTS TO SYSTEM SOLUTIONS
• Extensive User Involvement– GOES User Conferences – 2001, 2002, and 2004 – Data User Conference – 2002, 2004 (upcoming)
• GOES-R Program Requirements Document (GPRD) – Consolidate set of requirements to direct early system trades and
ultimately system development– Incorporate all NOAA Line Office and Mission Goal Team Requirements
• Validated by AAs and Goal Team leads– Coordinated with other federal and international agencies to help guide
future potential collaborations
• Mission Requirements Document (MRD) – Translates operational requirements into system acquisition requirements
REQUIREMENTSREQUIREMENTS
*Asterisk indicates no
name change
Orange = Sounder
GOES N PRODUCTS BY INSTRUMENT41 PRODUCTS
29 OPERATIONAL, 12+ EXPERIMENTAL
GOES N PRODUCTS BY INSTRUMENT41 PRODUCTS
29 OPERATIONAL, 12+ EXPERIMENTAL
Green = Imager
Clouds
Channel brightness temperature
Cloud drif t w inds f rom 3.9 um band
Cloud top pressure*
Ef fective cloud amount
Geopotential Height*
High Density Winds---Low Level*
High Density Winds---Mid Level*
High Density Winds---Upper Level
Hydro-estimator
Interactive Flash Flood Analyzer (?)
Layer precipitable w ater
Lif ted index
Low Level High Density Satellite Winds
Low level w inds (picture triplet)*
Multichannel precipitation
Precipitation Index Histograms
Real time remapped imagery
Site Specif ic clouds
Snow and Ice chart
Surface Skin Temperature*
Thermal Wind Prof iles (gradient w inds)
Total Precipitable Water*
Tropical Cyclone
Verticle Temperature and Moisture Prof iles*
Volcanic Ash Product*
Water Vapor Winds
Wildf ire Automated Bimass Burning Algorithms (WF_ABBA)
Aircraf t icing (Exper.)*
Clear Sky Brightness Temperature (Exper.)
Fog (Exper.)*
Fog Depth (Exper.)
Hot Spot and Smole analysis f rom Hazard Mapping System (Exp)
Imager and Sounder calibration
Merged Automatic Cloud and Aerosl Detection (MACADA)
Ozone estimate (Exper.)
Radiances (Exper., 3 layers)
Ref lectivity (Exper.)
Sea Surface Temperature (Exper.)*
WINDEX (Exper.)
RAMSIS movies
GOES-R OBSERVATIONAL REQUIREMENTS
~152 TOTAL PRODUCTS BY DATA TYPE/COVERAGE AREA
GOES-R OBSERVATIONAL REQUIREMENTS
~152 TOTAL PRODUCTS BY DATA TYPE/COVERAGE AREA
Insolation
Absorbed Shortwave Radiation Downward Solar Insolation Rainfall Potential
Aerosol Detection Dust/Aerosol
Aerosol Particle Size Energetic Heavy Ions
Reflected Solar
Aircraft Icing Threat Enhanced "V"/Overshooting Top Detection
Sea & Lake Ice/ Displacement and Direction
Atmospheric Vertical Moisture Profile Fire / Hot Spot Imagery
Sea & Lake Ice/Age
Atmospheric Vertical Temperature Profile Flood/Standing Water
Sea & Lake Ice/Concentration
Capping Inversion Information Geomagnetic Field
Sea & Lake Ice/Extent and Characterization
Hurricane Intensity
Sea & Lake Ice/Surface Temp
Clear Sky MasksIce Cover/ Landlocked
Sea Surface Temps
Cloud & Moisture Imagery Snow Cover
Cloud Base Height Land Surface (Skin) Temperature Snow Depth
Cloud Ice Water Path SO2 ConcentrationLightning Detection
Solar and Galactic ProtonsCloud Layers / Heights and Thickness Low Cloud and Fog
Solar Flux: EUVCloud Liquid Water Mag Electrons & Protons: Low Energy
Solar Flux: X-RayCloud Optical Depth Mag Electrons & Protons: Med & High Energy
Solar ImageryCloud Particle Size Distribution Microburst Winds
Surface AlbedoCloud Phase Moisture Flux
Surface EmissivityCloud Top Height Ocean Currents
Suspended MatterCloud Top Pressure Ocean Color
Total Precipitable WaterCloud Top Temperature Ocean Optical Properties
Total Water ContentCloud Type Ocean Turbidity
TurbulenceCO ConcentrationUpward Longwave RadiationCO2 Concentration
Ozone Layers
Vegetation FractionConvection Initiation
Ozone Total
Vegetation IndexDerived Motion Winds
Pressure Profile
VisibilityDerived Stability Indices
Probability of Rainfall
Volcanic AshDownward Longwave Radiation
Radiances
ABI – Advanced Baseline Imager
HES – Hyperspectral Environmental Suite
SEISS – Space Env. In-Situ Suite
SIS – Solar Instrument Suite
GLM – GOES Lightning Mapper
GOES PRODUCT IMPROVEMENTSGOES PRODUCT IMPROVEMENTS
• Severe storm and flood warnings
• Tropical cyclone (hurricane reconnaissance and warnings)
• Hydrologic forecasts and water resources management
• Short-term and mesoscale forecast
• Ocean surface and internal structures forecasts
• Medium range forecast outlook (out to fifteen days)
• Solar and space environmental forecasts
• Aviation forecasts (domestic, military, and international)
• Ice conditions forecasts
• Seasonal and inter-annual climate forecasts
• Decadal-scale monitoring of climate variability
• Environmental air quality monitoring and emergency response
• Fire and volcanic eruption detection and analysis
• Long-term global environmental change assessment
GOES-I/P Instruments GOES-I/P Instruments GOES-R Notional BaselineGOES-R Notional Baseline
ImagerImager
5 Channels5 Channels
Advanced Baseline Imager (ABI)Advanced Baseline Imager (ABI)
16 Channels At Higher Spatial And 16 Channels At Higher Spatial And Temporal ResolutionTemporal Resolution
Multispectral SounderMultispectral Sounder
19 Sounding Bands19 Sounding Bands
Hyperspectral Environmental Suite Hyperspectral Environmental Suite (HES)(HES)
1500 Sounding Bands1500 Sounding Bands
HiRes Imaging BandsHiRes Imaging Bands
Solar X-Ray ImagerSolar X-Ray Imager
Space Environmental MonitorSpace Environmental Monitor
Solar Imaging Suite (SIS)Solar Imaging Suite (SIS)
Space Environmental In-Situ Suite Space Environmental In-Situ Suite (SEISS)(SEISS)
N/AN/A GOES Lightning Mapper (GLM)GOES Lightning Mapper (GLM)
SYSTEM IMPROVEMENTSSYSTEM IMPROVEMENTS
ADVANCED BASELINE IMAGER (ABI) AND HYPERSPECTRAL ENVIRONMENTAL SUITE (HES)
PERFORMANCE
ADVANCED BASELINE IMAGER (ABI) AND HYPERSPECTRAL ENVIRONMENTAL SUITE (HES)
PERFORMANCEImagery
GOE-N SeriesImager
GOES-R SeriesABI
Spatial Resolution
Visible ~ 1 km 0.5 km
IR ~ 4 km >2.0 km
Coverage Rate
Full Disk Every 30 min <Every 15 min
CONUS Every 15 min Every 5 min
Spectral Coverage 5 bands 16 Bands
Soundings Sounder HES
Horizontal Resolution
Sampling Distance 10 km 4 km
Individual Sounding 30-50 km 10 km
Vertical Resolution ~ 3 km 1 km
Coverage Rate
Full Disk CONUS/60 min Full Disk/ 60 min
Severe Wx/Mesoscale None Every 5 min
Accuracy
Temperature 2 K 1 K
Relative Humidity 20% 10%
Spectral Coverage 19 channels ~ 1500 channels
Coastal Water Capability
Spatial Resolution n/a 0.3 km
Spectral Coverage n/a 14 vis bands
• GOES-R Space Weather Instruments– Space Environmental In Situ Suite (SEISS)
• proton, electron, and heavy ion fluxesproton, electron, and heavy ion fluxes
– Solar Imaging Suite (SIS)• solar X-ray flux magnitudesolar X-ray flux magnitude
• solar EUV flux from 5 to 129 nmsolar EUV flux from 5 to 129 nm
• coronal holes locationscoronal holes locations
• solar flares solar flares
• coronal mass ejections coronal mass ejections
– Magnetometers
• GOES-R Improvements– Solar X-ray image dynamic range,
resolution, and sensitivity
– EUV measurements using 8 channels (5 channels) In improved modeling of ionosphere and thermosphere
– Medium energy radiation environment responsible for spacecraft charging
SIS/SEISS IMPROVEMENTSSIS/SEISS IMPROVEMENTS
Space Weather Warnings Goal: 5 Days
GOES LIGHTNING MAPPERGOES LIGHTNING MAPPER
• New NOAA Instrument– Severe Storm Warning Times
– Lightning Danger Alerts
– Disaster Team Response
– Nitrogen Production
• Detects Total Strikes:In Cloud, Cloud To Cloud, And Cloud To Ground
– Compliments Today’s Land Based Systems That Only Measures Cloud To Ground (About 15% Of The Total Lightning)
• Increased Coverage Over Oceans And Lands
– Currently No Ocean Coverage, And
– Limited Land Coverage In Dead Zones
• Parameters– Hemispheric Or CONUS Coverage
– 10 Km Spatial Resolution (1 Km Goal)
– 1 Km Vertical Resolution
GOES-R IMPROVEMENTS SPATIAL, SPECTRAL, TEMPORAL
GOES-R IMPROVEMENTS SPATIAL, SPECTRAL, TEMPORAL
0 25 50 75 100 125
Tornado
SevereThunderstorm
Flash Flood
in minutes
Year 2025
Year 2000
• Predict When And Where Severe Weather Will Occur (Better Location Accuracy)
• Increased Lead-times For Severe Weather Warning Helping Meet NWS Goals
• Track Paths Of Severe Weather More Accurately
0 12 24 36 48 60 72
Hurricane
in hours
*NWS Science & Technology Infusion Plan
Hurricane
GOES-R SPATIAL, SPECTRAL, TEMPORAL IMPROVEMENTS
PROVIDING NOAA MORE CAPABILITY TO ….
GOES-R SPATIAL, SPECTRAL, TEMPORAL IMPROVEMENTS
PROVIDING NOAA MORE CAPABILITY TO ….
• Characterize Ocean Color – Monitor harmful algae blooms– Locate hazardous materials– Monitor coastal erosion
• Measure Climate-Relevant Changes – Improve environmental outlooks
• Droughts• Ozone• Soil Moisture• Hurricane
• Improve Severe Weather Trajectories and Moisture/Thermal Knowledge
– Improve agriculture management– Improve location accuracy– Improve severe storm warning times
• Improve the Forecast Accuracy of Fog, Ice, and Winds– Increase public/commercial transportation safety– Improve agriculture management– Reduce weather related delays– Reduce vehicular fatalities and injuries
USER BENEFIT ANALYSIS RESULTS TO DATE (APR 04)
USER BENEFIT ANALYSIS RESULTS TO DATE (APR 04)
Utilities-Electric Pow er, $451M
Recreational Golfing, $186M
Residential Landscaping, $291M
Utilities-Natural Gas, $7M
Consumer Benefits from Increased Water Supplies, $230M*
Agriculture, $40MCommercial Trucking, $28M
Lightning Safety-Avoidance of Cloud to Ground Strikes, $25M
Recreation-Boating, $29M
Commercial Aviation, $56M
Commercial Fishing-Fisheries Management, $4M
Commercial Shipping, $93M
Total Life Cycle Benefits of GOES-R Continuity of Current (GOES I-P) Capability
Total Life Cycle Incremental Benefit (GOES-R improvement over GOES I-P Capability)
Total GOES-R Life Cycle Mission Benefits:
Estimated GOES-R Incremental Annual Benefits in 2015(PV-
FY03$)
Source: Geostationary Operational Environmental Satellite System (GOES) GOES-R Sounder & Imager Cost Benefit Analysis Study. Phase II (final) and Phase III (In draft).
$8.1B
$7.1B
$15.2B
ACQUISITION APPROACHACQUISITION APPROACH
• Architecture Studies – Twelve Contractors– Fixed Price Contracts (FY04/05)
• Initiate End-to-End Integration Studies• Identify Risk Factors• Develop Life Cycle Cost Estimate• Assess Distributed, Consolidated, and Other Constellations in addition to System-level and
Ground Segment Architectures
• Design and Risk Reduction Phase
– Two to Three Contractors per effort
– Fixed Price Contracts (FY02-06)• Development Of Detailed Concept Designs And Higher Fidelity Cost Models
• Performs Accommodation and Trade Studies
• Identifies Risk
• Development and Production Phase– One Contractor per effort
– Cost Plus Award Fee (FY04-22)• Refines design development
• Begins approximately 1 year prior to Preliminary Design Review
• Delivers Engineering Model (Prototype) and Flight Models
• Supports through last planned launch date, Apr 22
LIFE CYCLE COST ASSUMPTIONS
LIFE CYCLE COST ASSUMPTIONS
• GOES-R Launch Date: Oct 2012
• Ground System Readiness Date: Oct 2010
• System End-to-End Development Test & Evaluation: Oct 2010 – Apr 2012
• Mission Operations & Simulations: Oct 2011 to Oct 2012
• Ready for Launch: Launch Date minus 3 mos
• Initial Operational Test & Evaluation (IOT&E): Oct 2012 – Apr 2013
• Operations/Support: Apr 2013 – Apr 2029
• Ground System Refresh: 7 year centers beginning Oct 2012
NOTIONAL BASELINE DISTRIBUTED SATELLITE
ARCHITECTURE
NOTIONAL BASELINE DISTRIBUTED SATELLITE
ARCHITECTURE
• Payloads distributed over multiple satellites for each orbital slot– Advanced Baseline Imager (ABI)
– Hyperspectral Environmental Suite (HES)
– Solar Imaging Suite (SIS)
– Space Environmental In-Site Suite
– GOES Lightning Mapper (GLM)
• Distributed concept used to baseline program performance, cost, and schedule
A-SatABISISGLMservice
B-SatHESSEISSservices
A-SatABISISGLMservices
B-SatHESSEISSservices
WEST EAST
PROGRAM SCHEDULEPROGRAM SCHEDULE
2002 2003 2004 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014TASK
System Architecture Study
ABI
Design/Risk ReductionDevelopment/ProductionFlight Model Delivery
HES (ABS)
Design/Risk ReductionDevelopment/ProductionFlight Model Delivery
SIS (Solar Imaging Suite)
Design/Risk ReductionDevelopment/ProductionFlight Model Delivery
SEISS (Space Env. In-Situ Suite)
Design/Risk ReductionDevelopment/ProductionFlight Model Delivery
GLM (GOES Lightning Mapper)
Design/Risk ReductionDevelopment/ProductionFlight Model Delivery
Spacecraft
Design/Risk ReductionDevelopment/ProductionSpacecraft Readiness
Available for Launch
Ground System
Design/Risk ReductionDevelopment/ProductionReadiness Development Test & Evaluation
10/03 4/051/04
8/04
PDR
4/06
CDR
10/07
EM 4/09 8/10
FM1 FM 1
Need Date
6/11
FM2
12/12
FM 3
6/14
FM 4
5/04
5/06
9/06 6/07
PDR
6/08
CDR
9/09
EM
1/11FM1
7/12
FM2
1/14
FM 3
9/04 2/064/06 12/06
PDR
12/07
CDR
6/09
EM 6/10
FM1
9/11
FM2
3/13
FM 3
9/14
FM 4
11/04 10/05
1/06 10/06
PDR
11/07
CDR
3/09
EM 6/10
FM1
9/11
FM2
3/13
FM 3
9/14
FM 4
3/06 12/06
PDR
12/07
CDR
4/09
EM 9/10
FM 1
3/12
FM 2
9/13
FM 3
7/05 10/06
4/07 4/08
PDR
4/09
CDR
A1
10/12
B1
9/13
A2
4/14
B2
10/12
A1 B1
4/14
A2 B2
8/05
12/06
4/07 4/08
PDR
4/09
CDR 10/10
10/10
10/12
A SAT = ABI + SIS + GLM + ServicesB SAT = HES + SEISS + Services
TIM TIM
11/052/05
4/05
CY
NEAR TERM SCHEDULENEAR TERM SCHEDULE
• FY 04– Design/Risk Reduction Phase
• Hyperspectral Environmental Suite
• Space Environmental In-Situ Suite
• Solar Imaging Suite
– Development/Production Phase
• Advanced Imager Baseline
• FY 05– Design/Risk Reduction Phase
• GOES Lightning Mapper
• Spacecraft
• Ground Segment
– Development/Production Phase
• Space Environmental In-Situ Suite
• FY 06– Development/Production Phase
• Hyperspectral Environmental Suite
• Solar Imaging Suite
• GOES Lightning Mapper
• FY 07– Development/Production Phase
• Spacecraft
• Ground Segment
GOES-R INTEGRATED MANAGEMENT PLAN
GOES-R INTEGRATED MANAGEMENT PLAN
• Integrated Program Management and Acquisition Plan– Program Mission, Background, Objectives
– System Description Overview
– Configuration Management Status
– Test and Evaluation Strategy
– Logistics Engineering Concept
– Risk Management Status
– Acquisition Strategy
– Project Management Plan
– Financial Management Strategy
• Appendix Plans– Requirements Plan – in process
– System Engineering Plan – not started
– Test and Evaluation Master Plan – in process
– Risk Management Plan – completed Jan 04
– Configuration Management Plan – scheduled completion for May 04
– Program Office Communications Plan – not started
– Quality Plan – not started
– Exhibit 300 – updated annually
GOES-R RISK REDUCTION PLANGOES-R RISK REDUCTION PLAN
• Investigation of the GOES-R derived meteorological, oceanic, and terrestrial products and their operational utility– Assure the viability of GOES-R products
– Develop advanced products
– Ensure timely efficient integration of the improvements into NWS, NESDIS, and other NOAA Line Office operations
• Efforts over the next decade to develop, evaluate, and validate the GOES-R products and to prepare the user community
• Addresses Algorithm Development, Data Assimilation & Model Impact Tests, User Familiarization, and other tasks
• Covers FY04 through FY12 with budget allocations
• Provides the interface between the Program Office and the Users’ Community
CAL/VAL WORKING GROUPCAL/VAL WORKING GROUP
• Provide technical guidance/recommendations in the area of radiometric performance
– Design of radiometric/calibration sub-systems of the sensors
– Generation of a pre-launch test plan for sensor calibration and characterization, including methods for assuring traceability to international standards.
– Evaluation of radiometric performance waivers
– Analysis of data from pre-launch tests
– Compilation of on-orbit calibration databases
– Post-launch checkout of radiometric performance
– Long-term monitoring and archiving of on-orbit radiometric performance
• Assure that the GOES-R instruments produce data on orbit that satisfy NOAA’s scientific requirements for environmental monitoring
GOES-R EDUCATIONAL TOOLSGOES-R EDUCATIONAL TOOLS
• Develop tools to educate people on the GOES-R End-to-End System
- Booklet w/ standup capability
- 2 page Glossy
- Movie
- Poster
- GOES-R Road Show
- National Geographic: Writing a “Remote Sensing Satellites” chapter for the NG “Exploring Space Encyclopedia”
- The Weather Channel
- Aerospace “Crosstalk” dedicated issue
- Program Folder
PROGRAM EMPHASISPROGRAM EMPHASIS
• Continuity of a Oct 2012 Launch
• Crosscuts NOAA 4 Mission Goals
• End-to-End System
• Risk Reduction Program
• Cost Benefit (Cost/Sat Year)
• Ties to the NOAA/National/International Observing System
• Scheduled Incremental Upgrades (Ground/Space) to meet the User’s evolving needs (Pre-Planned Product Improvements)
• GEO, Polar, and other NOAA Sensing Platforms complimentary contributions to NOAA requirements
SUMMARYSUMMARY
GOES-R series Architecture and Design Trades Proceeding
– Initial requirements have been established
– Architecture Studies have completed mid-term reviews
– Continuing to release Design/Risk Reduction Phase RFPs to evaluate next level of trades
– Releasing first Production/Development (Hardware phase) contract this summer
• Defining GOES-R Risk Reduction Plans with Research and Algorithm development community
• Program Plans are under development
• Baseline Budget and Schedule are established
GOES-R IMPROVEMENTSGOES-R IMPROVEMENTS
Provide NOAA More Capability …Provide NOAA More Capability …
To Describe And Predict The Earth’s Environment To Describe And Predict The Earth’s Environment
To Conserve And Manage The Nation’s Natural To Conserve And Manage The Nation’s Natural Resources Resources
Leading To The ….Leading To The ….
Protection of
LIVES,LIVES,
PROPERTY,PROPERTY,
and theand the
ENVIRONMENTENVIRONMENT
Provide NOAA More Capability …Provide NOAA More Capability …
To Describe And Predict The Earth’s Environment To Describe And Predict The Earth’s Environment
To Conserve And Manage The Nation’s Natural To Conserve And Manage The Nation’s Natural Resources Resources
Leading To The ….Leading To The ….
Protection of
LIVES,LIVES,
PROPERTY,PROPERTY,
and theand the
ENVIRONMENTENVIRONMENT