2.5a_poes to jpss transition

POES to JPSS Transition

Marlin O. PerkinsDirect Readout Program Manager

April 09, 2013

“Strengthening Partnerships to Enhance User Readiness, Reception, and Utility”

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Agenda§Background§APT Service§HRPT Service§Summary of JPSS Direct Readout Plan§High Rate Data (HRD) Service§Low Rate Data (LRD) Service§HRPT Transition to:

§HRD§LRD

§Summary

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Branch ChiefSARSAT Program Manager

Christopher O’Connors

Direct Services Branch

SARSAT

Program AnalystStephen Roark

NOAA Corps OfficerLTJG Timothy Sinquefield

Ground Segment Engineer

Jesse Reich

Administrative SupportDenise Buckmon

USMCC System ManagerVacant

Technical Lead/Space Segment EngineerMickey Fitzmaurice

One vacancy (USMCC System Manager)

Direct Services Team

Argos DCSScott Rogerson

Program Manager

Direct ReadoutMarlin Perkins

Program Manager

Rebroadcast ServicesPaul Seymour

Program Manager

GOES DCSKay Metcalf

Program Manager

GOES DCSLetecia Reeves

Customer Service

OSPO Support Services Contract

HI & FL MEOLUT

Dev. Contracts

LUT Maintenance

Contract

USMCC Operations & Maintenance

Contract

http://www.noaasis.noaa.gov/

http://www.sarsat.noaa.gov/

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Background§Current Direct Readout Services:

–Automatic Picture Transmission (APT) Service• Analog service operational on POES spacecraft• Service available through the life of legacy spacecraft

–Low Resolution Picture Transmission (LRPT)• EUMETSAT replaced analog APT with the digital LRPT on Metop-A • LRPT on Metop-A interfered with the sounder, turned off in 2007• LRPT is not available on Metop-B/C

–High Resolution Picture Transmission (HRPT) • Digital service operational on POES spacecraft• Service available through the life of legacy spacecraft

–Advance High Resolution Picture Transmission (AHRPT)• EUMETSAT replaced HRPT with the AHRPT with Metop-A • Metop-A AHRPT service limited operation since 2007• Metop-B AHRPT is full global operation

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CharacteristicsAPT HRPT AHRPT LRD

(TBD)HRD

Receiver Center Frequency (MHz)

137.5 , 137.62, 137.1, 137.9125

1698,1707,1702.5

1701.3,1707

1703 7812

Data Rate 38 Kbps 664 Kbps 3.5 – 4.66 Mbps 3.5 – 4.66 Mbps 15 Mbps

Polarization Right-hand Circular

Right-hand Circular, Left-hand Circular based on transmitter in use

Right-hand Circular

Right-hand Circular

Right-hand Circular

Bandwidth 30-40 KHz 3.0 MHz 4,5 MHz 4.5 MHz 300 MHz

Modulation 2.4 KHz AM subcarrier on FM carrier

Digital, Split Phase Modulated

QPSK QPSK QPSK

Format NOAA APT Format

NOAA HRPT Format

CGMS AHRPT Global Spec

CGMS AHRPT Global Spec

CCSDS

G/T @ 5o elevation and clear sky

N/A N/A 6 db/K 6 db/K 22.70 db/K

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Service AvailabilityAPT HRPT LRPT AHRPT LRD HRD

POES YES YES NO NO NO NO

Metop NO NO NO YES YES NO

Meteor M NO NO YES YES YES NO

FY-3 NO NO NO YES YES YES

S-NPP NO NO NO NO NO YES

JPSS-1 NO NO NO NO NO* YES

JPSS-2 NO NO NO NO NO* YES

*Development of an LRD service on JPSS-1 was suspended in 2011. Currently, JPSS is not planning to implement L-band capabilities on JPSS-2 and beyond and is studying the impacts on users.

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APT Service§Service Transition

–APT service WILL BE available until end-of-life of POES spacecraft ,

–NOAA’s future polar-orbiting satellites will NOT support an APT or APT-like service,

–A likely alternative is the Low Resolution Picture Transmission (LRPT) service

• Available on Roshydromet Meteor-M/MP series satellites

Use of the 137 -138 MHz frequency band on future NOAA polar-orbiting satellites has not been considered.

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HRPT Service§Equipment

– 1.1 meter (or larger) parabolic dish – Antenna positioner and control hardware including azimuth and

elevation rotators – Feedhorn and quadrature combiner – Low noise amplifier – Wide band receiver – Demodulator – Bit-synchronization board – Personal Computer – Software for image ingest, processing, and display

§ Cost– Complete system: $50K+ (USD)

• Visit any satellite receiver manufacturer• See http://www.noaasis.noaa.gov/

NOAASIS/ml/manulst.html for list of vendors

The HRPT service will be continuous through the end-of-life of the POES spacecraft.

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Summary of JPSS Direct Readout Plan

§JPSS Level 1 Requirement document provides the basis for the planned support of the direct readout community with direct broadcast from JPSS-1 and JPSS-2

–JPSS-1 will provide HRD (High Rate Data) broadcast containing sensor data–JPSS-2 will provide HRD broadcast and the NOAA JPSS Office will finalize

decision to not implement LRD (Low Rate Data) broadcast after studying user impacts.

§The JPSS HRD broadcasts (JPSS-1,JPSS-2) will contain all of the sensor data necessary for the field terminal user community to produce a full set of data records (Mission Support Data will be available by internet)

§Any potential JPSS-2 LRD broadcast would contain the necessary sensor data for the field terminal user community to produce a prioritized set of data records

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Summary of JPSS Direct Readout Plan (con’t)

§JPSS will not perform encryption of the direct broadcast§JPSS will provide the necessary inputs (for the field terminal user community to produce the data records) on a web portal

–Algorithms & Software, Data Processing Framework, Mission Support Data (MSD), Field Terminal Hardware Specifications, Test Products

–Users will be notified of any updates to these products–Software and algorithm updates are JPSS configuration control board

(CCB) managed

§JPSS will provide additional services to the field terminal user community

–HRD downlink status (post-pass) & mission status notifications–Help desk for user support (TBD)

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Summary of JPSS Direct Readout Plan (con’t)

Missions Mission Orbit Launch Payloads Mission Communications Data Latency

Suomi NPP

824 km, 1330 LTAN, Polar Sun-Synchronous, 16 day Repeat Cycle

ULA - Delta II (Vandenberg)

VIIRS, CrIS, ATMS, OMPS-N&L, CERES

SMD: X band, 300 Mbps, Svalbard/FairbanksHRD: X band, 15 MbpsT&C: S band, Svalbard/Fairbanks/TDRSS

140 minutes

JPSS-1 824 km, 1330 LTAN, Polar Sun-Synchronous, 16 day Repeat Cycle, Mission Constellation with S-NPP

ULA - Delta-II (Vandenberg)

VIIRS, CrIS, ATMS, OMPS-N, CERES

SMD: Ka band, 300 Mbps, Svalbard & McMurdo, Fairbanks, TrollSMD Backup: Ka band, 150 Mbps, TDRSSHRD: X band, 15 MbpsT&C: S band, Svalbard/Fairbanks/Troll, TDRSS

80 minutes

JPSS-2 (Future)

824 km, 1330 LTAN, Polar Sun-Synchronous, 16 day Repeat Cycle, Mission Constellation with S-NPP and JPSS-1

TBD (Vandenberg)

VIIRS, CrIS, ATMS, OMPS-N, OMPS-L, CERES Follow-on (objective)

SMD: Ka band, 300 Mbps, Svalbard & McMurdo, Fairbanks, TrollSMD Backup: Ka band, 150 Mbps, TDRSSHRD: X band, 15 MbpsLRD: L band, 4 Mbps (if implemented)T&C: S band, Svalbard/Fairbanks/Troll, TDRSS

80 minutes

SMD - Stored Mission Data, HRD – High Rate Data, T&C – telemetry and Command,

The key differences in the mission architecture from S-NPP are in bolded text below

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High Rate Data (HRD) Service (con’t)

§ Registration of X-band Stations– The X-band range (7.75 – 7.90 GHz) is shared

between Meteorological Satellites and Point-to-Point Radio Links on ground.

– To protect against Potential Interference from Point-to-Point Radio Links it is strongly recommended to register X-band Direct Readout Reception Stations with the national Radio Frequency Authorities;

– Before selecting a location for a new X-band Direct Readout Reception Station it is advisable to carry out a Radio Frequency Survey to identify any existing sources of interference.

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High Rate Data (HRD) Service

§Equipment–Cost

• X-band only $250K+ (USD)• L-band/X-band $400K+ (USD)

–Equipment Information • Visit any satellite receiver manufacturer• See http://www.noaasis.noaa.gov/

NOAASIS/ml/manulst.html for list of vendors

• The HRD service will be continuous through S-NPP and JPSS-1/2.• A HRD service will be available on several future international polar-

orbiting constellations. See http://www.wmo.int/pages/prog/sat/satellitestatus.php

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Low Rate Data (LRD) Service

§Equipment–Equipment Configuration

• Similar to Metop AHRPT terminal–Data Format

• CGMS Global Specifications for AHRPT–Cost

• LRD $100K+ (USD)• An L-band service will not be available on S-NPP and JPSS-1. • EPS-SG has excluded the transmission a (very) reduced amount of

data in L-band in parallel, for cost reduction and performance reasons.

• The 1695 – 1710 MHz band covering the US states will be shared with commercial broadband services.

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HRPT Transition §Transition to HRD

–It will not be possible to upgrade an existing HRPT station to use the S-NPP/JPSS HRD

• Old equipment not compatible• Requires a new X-band field terminal

–Other systems that don’t meet those requirements• Replacement of demodulator and potentially other components; • Software upgrades to handle S-NPP/JPSS instrument data and other

S-NPP/JPSS specific aspects– Station Cost

• X-band only $250K+ (USD)• L-band/X-band $400K+ (USD)

– System information• Visit any satellite receiver manufacturer• See http://www.noaasis.noaa.gov/NOAASIS/ml

/manulst.html for a list of vendors

The meteorological X-band (7.75 – 7.90 GHz) has been selected for EPS-SG direct broadcast..

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HRPT Transition §Transition to LRD

–Equipment Upgrades • Similar to HRPT to Metop AHRPT upgrades

–Data Format • CGMS Global Specification for AHRPT

–Station Cost • L-band only $100K+ (USD)• L-band/X-band $400K+ (USD)

–Equipment Information • Visit any satellite receiver manufacturers• See http://www.noaasis.noaa.gov/NOAASIS/ml/

manulst.html for a list of vendors

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Summary§A summary of the spacecraft services and field terminal

changes are listed below:– METOP Constellation

• LRPT:– APT Service replaced the failed LRPT in the AM orbit;– LRPT is not available on METOP-B/C;

• AHRPT: New format requires upgrades to existing HRPT field terminals or purchase new station.

– POES Constellation• APT: Frequency change in the 137.1 – 137.937 MHz frequency band;• HRPT Service remains unchanged;• APT/HRPT services are available until POES end-of-life.

– S-NPP/JPSS Constellation• APT service will not be available;• HRPT will not be available and might be replaced with the LRD broadcast,

which would require L-band field terminal upgrades; • LRD will not be available on S-NPP or JPSS-1; a final decision on JPSS-2

will be made after studying the impacts of no LRD on users.• HRD service requires a new X-band field terminal.

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Summary of Direct Readout Services

Satellite/Series Time PeriodType of Service

(1)

Frequency Band

Nominal Freq Range& Data Rate

NOAA 1983 – 2013+APT VHF 137 MHz; 33 Kbps

HRPT (3) L-band 1698, 1702.5, or 1707 MHz; 665 Kbps

METOP-A/B 2006 - presentAHRPT (3) L-band 1701/1707 MHz; 3.5 Mbps

LRPT VHF 137/139 MHz; 75 KbpsS-NPP 2011 - present HRD (2) X-band 7812 MHz; 15 MbpsJPSS-1 2017 - 2023 HRD (2) X-band 7812 MHz; 15 Mbps

FF-1 2017 - 2023 A-DCS L-band 1705 MHz; 1.5 Mbps

JPSS-2 2022 - 2028HRD (2) X-band 7812 MHz; 15 Mbps

LRD (TBD) L-band 1703 MHz (TBD); 3.8 Mbps

1. All services are Digital, except NOAA APT which is Analog.2. Contains Full Resolution Imagery Data3. L-band Full Resolution Imagery ends with NOAA-19 circa 2013, but continues with METOP-B. Data rate for METOP-C is uncertain.

User impacts of no L-band service on JPSS-2 and beyond are requested. 18

Contact Information§Marlin O. Perkins

–Marlin.O.Perkins@noaa.gov–301.817.4523–https://www.noaasis.noaa.gov

§Paul Seymour–Paul.Seymour@noaa.gov–301.817.4521–https://www.noaasis.noaa.gov

§http://www.jpss.noaa.gov/satellites.html

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Thank You!

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