Global Precipitation Measurement-Microwave Imager

Predicting rain

Did you know that freshwater makes up less than one percent of the Earth’s total water? Scientists from around the world are studying how precipitation, climate and weather affect the availability of our water resources, especially in the context of global climate change. 

The Global Precipitation Measurement (GPM) mission, a joint effort between NASA and the Japan Aerospace Exploration Agency (JAXA), will provide better global precipitation measurements. GPM will tell us more about Earth’s water and energy cycles, improve forecasting of events that cause natural disasters, and extend our current capabilities for using highly accurate precipitation data.

The GPM satellite successfully launched from southern Japan on Feb. 27, 2014 onboard an H-IIA launch vehicle. 

Download this PDF to discover why GMI is the calibration standard for the entire GPM constellation.

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NASA GMI

Click this link to learn more about the GMI instrument on the NASA website.

GMI data maps flooding

AER's FloodScan system is using GMI data to monitor flooding in Malawi and Mozambique after cyclone Idai.

What We Did

What We Did

Instrument provider

We designed, developed and fabricated GMI.  It works in concert with the JAXA-built Dual-Frequency Precipitation Radar (DPR) instrument. GMI’s higher frequency channels measure small particles of ice, snow and rain while DPR gives a 3D view of a column of precipitation. Together, these instruments give scientists an unprecedented view of small precipitation particles with a much higher degree of accuracy. 

GMI’s design provides state-of-the-art accuracy, so the instrument has become the calibration standard for the entire GPM constellation. GMI will be used to cross-calibrate other GPM sensors, setting a new reference standard for the scientific community.  

Instruments & Sensors

Delivering accurate data from all platforms in space, on land, in the air and at sea

Weather

Reliable weather space systems that meet specific military and civilian needs

Payload Operations Center

Cost-effective optical technologies that offer high value and high performance