GPM Global Precipitation Measurement

1. GPMGlobal Precipitation Measurement • Reference Concept • Eric Smith & Jim Adams ; NASA/Goddard Space Flight Center • May - 2001

2. Brief GPM History • GPM Motivated by Highly Successful NASA/NASDA TRMM Program • Easton, MD Workshop Convened (August-1998) • GPM (designated as EOS-9) recommended as principal systematic measurement of Global Water & Energy Cycle panel • GPM strongly endorsed by Applications panel • Discussions with NASDA and ESA Initiated • GSFC/JPL EOS-9 Post-2002 Mission Study (4/99) Conducted • initial plan for constellation orbits assumes 70 inclination • NASA HQ recommends exploring use of existing assets for constellation members (i.e., DMSP/SSMIS, GCOM-B1/AMSR-J, & NPOESS/CMIS) • constellation orbits changed to over-pole sun-synchronous inclinations to compliment DMSP & additional future sun-synch satellite data streams • Low Level GPM Concept Definition Initiated by GSFC, JPL, & MSFC • implement Integrated Mission Design Center (IMDC) and Team-X sessions • document measurement trade space • promote partnerships • explore data acquisition-processing-distribution-archiving concepts

3. OBJECTIVES ∑ Understand Horizontal & Vertical Structure of Rainfall, its Microphysical Nature, & Associated Latent Heating ∑ Train & Calibrate Algorithms for Constellation Radiometers OBJECTIVES ∑ Provide Sufficient Sampling to Reduce Uncertainty in Short-Term Rainfall Accumulations ∑ Extend Scientific and Societal Applications GPM Reference Concept • Core Satellite • TRMM-Like S/C, NASA • H2-A Launch, NASDA • Non-Sun Synchronous Orbit • ~ 65° Inclination • ~450 km Altitude • Dual Frequency Radar, NASDA • Ku & Ka Bands • ~ 4 km Horizontal Resolution • ~250 m Vertical Resolution • Multifrequency Radiometer, NASA • 10.7, 19, 22, 37, 85, 150 GHz V&H • Constellation Satellites • Dedicated Small or Pre-existing Experimental & Operational Satellites with PMW Radiometers • Revisit Time • 3-Hour goal • Sun- & Non-Sun- Synch Polar Orbits • ~600 km Altitude • Global Precipitation Processing Center • Produces Global Precipitation Data Product Streams Defined by GPM Partners • Precipitation Validation Sites • Selected & Globally Distributed Ground- Based Supersites (Multiparameter radar, up looking radiometer/radar/profiler, raingages, & disdrometers) • Dense Regional Raingage Networks

4. SSM/I Era TRMM Era EOS Era TRMM 1-day coverage GPM Era

5. Near Term Satellite Data Streams forTRMM/EOSErasfrom Passive Microwave Radiometers & Precipitation Radars[at left are actual (bold) nodal crossing times (DN) or non-sun-synch labels ] ¨ Continuous Geosynchronous Satellite Coverage by GOES E/W, METEOSAT/MSG, & GMS Æ 86 90 03 CY 86-05 87 88 89 91 92 93 94 95 96 97 98 99 00 01 02 04 05 DMSP F8 F11 F13 SSM/I SSMIS DMSP F16 0530DN 0530DN DMSP F10 F12 F14 F15 (0915DN) SSM/I SSMIS MSU Æ AMSU-A DMSP F17 0830DN 0830DN NOAA-J NOAA-L 0830DN NOAA-N NOAA-D NOAA-K NOAA-M 0730DN MSU Æ AMSU-A TRMM (35∞ inc) NSS PR/TMI ADEOS II 0130DN AMSR AQUA 1030DN AMSR ¨ INSTRUMENTS KEY carries preferred PMW frequencies carries alternate PMW frequencies

6. Projected & Potential Satellite Data Streams for GPM Erafrom Passive Microwave Radiometers & Precipitation Radars[at left are either actual (bold) or orthodox (paren) nodal crossing times (DN or AN) or non-sun-synch labels ] ¨Continuous Geosynchronous Satellite Coverage by GOES E/W, METEOSAT/MSG, & GMS Æ 03 CY 99-18 99 00 01 02 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 DMSP F13 SSM/I SSMIS CMIS DMSP F16 F18 F20 0530DN 0530DN NPOESS C3 (0530DN) DMSP F15 SSM/I SSMIS CMIS MSU Æ AMSU-A NOAA-N’ DMSP F17 F19 0915DN 0830DN NPOESS C1 (0830DN) NOAA-J NOAA-L NOAA-N NPP-ATMS NPOESS LITE-CMIS NPOESS C2 0730DN CMIS MSU Æ AMSU-A NOAA-K NOAA-M TRMM (35∞ inc) PR/TMI DPR/ATMI GPM Core (65∞ inc) Replacement Era NSS Gap ADEOS II AMSR AMSR-FO 1030DN Replacement Era GCOM-B1 (1030DN) AQUA Replacement Era GPM-1 (e.g., N-GPM1) AMSR-E CMR-1 0130DN (0230DN) Replacement Era GPM-2 (e.g., N-GPM2) KEY carries preferred PMW frequencies carries alternate PMW frequencies GPM-1,-2,-3,-4,-5 are dedicated GPM drone satellites (e.g., N-GPMx, I-GPM, E-GPM) (1430AN) CMR-2 GPM-3 (e.g., I-GPM) Replacement Era (1730AN) CMR-3 GPM-4 (e.g., E-GPM) Replacement Era (2030AN) CMR -4/ Ka-Band PR GPM-5 (e.g., new partner) Replacement Era (2330AN) CMR-5 Replacement Era MEGHA-TROPIQUES (22∞ inc) NSS MADRAS Replacement Era FY-3 TBD TBD

7. Implementation of InternationalGPM Satellite Constellation 7 5 4 >3 <3 11 90% Global Revisit Time (Hours) 24 16 GPM Core DPR + ATMI TRMM PR + TMI 9 Megha Tropiques MADRAS 8 Euro-GPM E-CMR 7 Systematic Rainfall Measurement Italy-GPM I-CMR 6 Partner-GPM P-CMR 5 Number of Satellites ADEOS-II AMSR GCOM-B1 AMSR 4 AQUA AMSR NASA-GPM N-CMR NPOESS LITE/NPOESS CMIS 3 DMSP SSM/I NPOESS CMIS DMSP SSMIS 2 1 DMSP SSM/I DMSP SSMIS NPOESS CMIS 88 90 92 94 96 98 00 02 04 06 08 10 12 14 16 18 Years

8. TRMM Era Constellation Coverage 3-hour sensor ground trace TRMM + DMSP(F14) + DMSP(F15)

9. EOS Era Constellation Coverage 3-hour sensor ground trace TRMM + DMSP(F15) + DMSP(F16) + AQUA + ADEOS II

10. GPM Systematic Measurement Coverage(Core + 9 constellation members) 3-hour sensor ground trace GPM Core + MEGHA-TROP + DMSP(F18) + DMSP(F19) + GCOM-B1 + NASA-GPM I + Euro-GPM I & II + Partner-GPM I & II