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1. NPOESS community refers to Direct Readout systems as Field Terminals
While Field Terminals make up a segment of NPOESS we will be developing only software.
Prior to release of RFP for NPOESS the Integrated Program Office and DOC and DoD agreed that NPOESS should provide only software and the respective agencies would build there own terminals to meet their unique environmental requirements. NPOESS community refers to Direct Readout systems as Field Terminals
While Field Terminals make up a segment of NPOESS we will be developing only software.
Prior to release of RFP for NPOESS the Integrated Program Office and DOC and DoD agreed that NPOESS should provide only software and the respective agencies would build there own terminals to meet their unique environmental requirements.
2. Direct Readout Lab Roadmap to NPP and Beyond Evolution of satellites , signal processing, technologies developed and available to Users and Vendors
Looking for technologies needed by Users for NPOESS era
Evolution of satellites , signal processing, technologies developed and available to Users and Vendors
Looking for technologies needed by Users for NPOESS era
3. Data Volume Evolution Note increase of data rates and storage growth that will be needed in future
Highlight data latency improvement
Data access for military with EOS, NPP and NPOESS
Note increase of data rates and storage growth that will be needed in future
Highlight data latency improvement
Data access for military with EOS, NPP and NPOESS
4. RF Communications Subsystem Overview
5. Overview Spacecraft Iso-view
6. HRD RF Downlink Characteristics ..
7. HRD RF Downlink CharacteristicsCoding/Randomization
8. HRD EIRP vs. Nadir Angle
9. HRD Downlink Spectral Mask
10. HRD Long-Term Orbit-Averaged Availability
11. LRD RF Downlink Characteristics ..
12. LRD RF Downlink CharacteristicsCoding/Randomization
13. LRD EIRP vs. Nadir Angle
14. LRD Downlink Spectral Mask
15. LRD Long-Term Orbit-Averaged Availability
16. NPOESS / NPP Sensor Manifest Reminder of payload manifest
VIIRS largest contributor of data @ 10.5Mbps with Rice Lossless compression at 1.8:1
Sensors produce raw data for EDR production.
Reminder of payload manifest
VIIRS largest contributor of data @ 10.5Mbps with Rice Lossless compression at 1.8:1
Sensors produce raw data for EDR production.
17. LRD Data Content Balances Performance and Provides Flexibility 2 points on this chart
1) shows each sensor configuration by spacecraft Nodal crossing time
2) Programmable LRD Link means that we can change data in link by APID, for example we could have more imagery over land and more sounding data over oceans configurations will be determined by procedures to be defined during next few years well before launch.2 points on this chart
1) shows each sensor configuration by spacecraft Nodal crossing time
2) Programmable LRD Link means that we can change data in link by APID, for example we could have more imagery over land and more sounding data over oceans configurations will be determined by procedures to be defined during next few years well before launch.
18. Field Terminal Ancillary Data Approach Dynamic ancillary data contained within LRD and HRD downlinks to meet specified performance levels
Data for six pressure levels from the NWP forecast model
Temperature
Humidity
Surface pressure
Standard pressure levels
Wind speed, wind direction
Precipitable water
For SESS EDR production
Effective sunspot number and global geomagnetic Kp
NPOESS mission support data server, accessible via internet Read ChartRead Chart
19. Ancillary Data DownlinkGraphical Representations Explain uplink and downlink conops 2 orbit wide swaths of ancillary dataExplain uplink and downlink conops 2 orbit wide swaths of ancillary data
21. NPOESS High Rate Data (HRD)Environmental Data Records (EDRs) Greyed out EDRs not in HRDGreyed out EDRs not in HRD
22. NPOESS Low Rate Data (LRD)Environmental Data Records (EDRs) Greyed out EDRs not in LRD
8 High Priority EDRs listed
(P) Predecessor EDR needed to produce some of 8 High Priority EDRs you get them for free
Bandwidth allows other EDRs to be provided as well
Greyed out EDRs not in LRD
8 High Priority EDRs listed
(P) Predecessor EDR needed to produce some of 8 High Priority EDRs you get them for free
Bandwidth allows other EDRs to be provided as well
23. Field Terminal Data Flow Read chartRead chart
24. Direct Readout Interfaces
25. Field Terminal Data Processor Element Software Design Open Systems Group standards compliance at interfaces minimizes configurations
Programmable LRD downlink favors 8 Priority EDRs
Onboard VIIRS data compression rates by APID for LRD
Flexible ancillary data approach
Dynamic ancillary data via satellite downlink
NPOESS Mission Support Data Server via Internet access Read Chart
Programmability could be used to change data packets for different EDR production in regional areas e.g., Antarctica
JPEG-2000 base lining 6:1
Introduce ancillary data concept will describe design later.Read Chart
Programmability could be used to change data packets for different EDR production in regional areas e.g., Antarctica
JPEG-2000 base lining 6:1
Introduce ancillary data concept will describe design later.
26. FTS EDR Performance HRD EDR performance
99% of performance attributes meet or exceed performance thresholds
Latency requirements achievable with current COTS multiple CPU workstations
Designed to recognize missing channels and ancillary data
Lossless RICE compression on VIIRS
LRD EDR performance
0.8 km resolution imagery and programmable downlink
Produces 8 high priority EDRs at or near LRD objective levels
Produces 15 lower priority EDRs and required predecessor EDRs
Designed to recognize missing channels and ancillary data
Lossless and Lossy JPEG2000 compression on selected APIDs
Read chart
Read chart
27. FTS Latency Analysis for Stress-case FTS Latency Requirement: max latency is ? 15 minutes.
SYS013235 & SYS013230 - Field Terminal software, when installed on NPOESS-specified HRD field terminal hardware, shall produce the Imagery EDR in less than or equal to 2 minutes and all other EDRs as specified in Appendix E in less than or equal to 15 minutes after receipt of data from the FT Signal Processing Subsystem.
A large number of factors impact FTS processing.
Terrain - Land or ocean
Day versus Night sensor characteristics
Weather - Cloudy, Partial Cloudy, Clear
Satellite Orbits & FTS emplacement (Latitudes)
FTS Hardware: CPUs (3 GHz NPP era)
Story is what is driving processing power needed to meet requirements
Story is what is driving processing power needed to meet requirements
28. FTS Simulation (e.g. 45N/00):1 day 15 Passes with 3 NPOESS S/C
29. Overlapping S/C contacts dont occur due to spacecraft orbital phasing.
Smallest gap of 10.2 minutes has minimal impact to FTS latency.
Above 60N there is a large increase in contacts and EDRs. Back-to-back S/C Contacts
30. Orbital Position Defines Dynamic Scene Content in Sensor Data
31. Land/Ocean, Day/Night, and Clear/Cloudy Data Land has process loads comparable to ocean.
Day data is 4x night data processing. Day-only algorithms are:
ACO/OCC
Vegetation Index
Surface Types
Aerosols (large load)
Surface Albedo (large load)
Clear Data is most stressing Clear-only algorithms are:
ACO/OCC
Vegetation Index
Land/Ice Surface & Sea Surface Temp
Surface Types
Aerosols (large load)
Surface Albedo (large load)
CMIS/CrIS AVT/MP (large load)
Used Land, Day and 100% Clear data Read ChartRead Chart
32. FTS Latency StatusAll EDRs & Imagery EDR Comparison of 2.6 GHz and 5.0 GHz HRD Results
33. NPOESS Field Terminal Segment Schedule Note that Ive added the Field Terminal Tech Spec (FTTS) and the Decryption Spec (FTDS) to the ICD CDR version, this is within scope and will result in a better product.
I havent changed FTS FAT 2.2 and 2.3, the whole NPOESS build schedule 2.1, 2.2, and 2.3 is in flux.
Ive based the NPP Launch on the best estimate that we have at the moment, that of a 16-18 month slip, I took the 18, if you want we can change to the 16 month point.
Maureen has a number of options for how to progress that she is going to be briefing at the F2F, but one of her main assumptions is an 18 month slip in NPP launch and NPP Ground Readiness at the Launch -8 point. All three of her options have Launch -6 but her assumption was Launch -8.
I put NPP HRD demo at NLT May 2009, but I believe that we can beat that by several months. The way the schedule stacks now, we should be able to complete 2.1 well before launch, so should only have to check out, and fix problems to prepare for the demo. Id like to take the conservative road for right now and then beat the schedule by 6-9 months. Note that Ive added the Field Terminal Tech Spec (FTTS) and the Decryption Spec (FTDS) to the ICD CDR version, this is within scope and will result in a better product.
I havent changed FTS FAT 2.2 and 2.3, the whole NPOESS build schedule 2.1, 2.2, and 2.3 is in flux.
Ive based the NPP Launch on the best estimate that we have at the moment, that of a 16-18 month slip, I took the 18, if you want we can change to the 16 month point.
Maureen has a number of options for how to progress that she is going to be briefing at the F2F, but one of her main assumptions is an 18 month slip in NPP launch and NPP Ground Readiness at the Launch -8 point. All three of her options have Launch -6 but her assumption was Launch -8.
I put NPP HRD demo at NLT May 2009, but I believe that we can beat that by several months. The way the schedule stacks now, we should be able to complete 2.1 well before launch, so should only have to check out, and fix problems to prepare for the demo. Id like to take the conservative road for right now and then beat the schedule by 6-9 months.
34. NPOESS Direct Readout Mission Points of Contact Direct Readout Mission POCs:
John Overton: (301) 713-4747
Bill Munley: (301) 713-4782
Joe Mulligan: (301) 713-4803
John van de Wouw: (310) 812-0800
NPOESS websites
Http://www.npoess.noaa.Gov
Http://npoesslib.ipo.noaa.Gov/ (electronic bulletin board)
Read ChartRead Chart