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CEOS EO HANDBOOK –
EARTH OBSERVATION SATELLITE CAPABILITIES AND PLANS
Capabilities of Earth Observation Satellites
   
Atmospheric Chemistry Instruments
Atmospheric Temperature and Humidity Sounders
Cloud Profile and Rain Radars
Earth Radiation Budget Radiometers
High Resolution Optical Imagers
Imaging Multi-Spectral Radiometers (vis/IR)
Imaging Multi-Spectral Radiometers (Passive Microwave)
Imaging Microwave Radars
Lidars
Multiple Direction/ Polarisation Instruments
Ocean Colour Instruments
Radar Altimeters
Scatterometers
Gravity, Magnetic Field and Geodynamic instruments
  Earth Observation Plans by Measurement  
Catalogue of Satellite Missions
Catalogue of Satellite Instruments
 



IMAGING MULTI–SPECTRAL RADIOMETERS (PASSIVE MICROWAVE)
Description
Operating at microwave wavelengths, these instruments have the advantage of cloud penetration and all-weather capability. Channels within 1 to 40 GHz and 80 to 100 GHz are used to get day/night information on the Earth’s surface. They have the advantage over visible/IR radiometers of being able to probe the dielectric properties of a surface or penetrate certain surfaces, a capability that is especially useful with vegetation, soil, sea ice and snow. Observations by instruments like AMSU-A, with channels between 50 and 60 GHz, are used for deriving atmospheric parameters, especially atmospheric temperature.

Like other microwave instruments, these passive instruments offer accurate spectral information but their spatial resolution is poor. At 90 GHz, their spatial resolution is typically 5 km, and for the lower frequencies it is of order tens of kilometres – poorer than that of their visible or infrared counterparts. As a consequence, they are most used for global analysis rather than regional or local, although some instruments are used to correct measurements from other sensors, rather than for imaging applications. These include the microwave radiometers on the ERS/Envisat and Topex/Poseidon/Jason series satellites, which are used to estimate and correct for atmospheric water vapour content in the column through which altimetric readings are being taken.
Applications
Measurements from these instruments may be used to infer a range of atmospheric and Earth surface parameters. One of their primary uses (often in conjunction with other instruments) is snow and ice mapping, due in part to their capability for cloud penetration. Current applications of passive microwave radiometer data include operational forecasting and climate analysis, and the prediction of sea ice concentration, extent and ice type. Passive microwave radiometers are also used to provide information on the liquid water content of clouds (e.g. the GPM mission).

These instruments can also supply some information on soil moisture content, which is a key surface parameter in agriculture, hydrology and climatology, and provides a measure of vegetation health. Furthermore, they are capable of contributing some information on ocean salinity, which is important to our understanding of ocean circulation. Developing these capabilities is a current research task.
Current and planned Instruments
AMR MIRAS (SMOS)
AMSR-2 MIS
AMSR-E MSMR
ATSR/M MTVZA
GeoSTAR MWR
GMI MWRI
GMI OLCI
JMR PMR
K band radiometers (SCLP) RAD
L-band Radiometer (SMAP) SAR L
MADRAS SLSTR
MERSI SSM/I
MI TMI
Microwave radiometer Water Vapour Radiometer
MIRAS  
JAXA’s AMSR-E instrument is used to produce daily maps of sea ice and to monitor changes in polar sea ice extent. (Credit: Univ Bremen/JAXA)
Sea ice condition chart of the Azov Sea derived from NOAA/AVHRR, TERRA/MODIS, METEOR-3M/MSU-E.
Various satellites are used operationally to generate vital sea ice map products by Russian authorities.
Further Information
AMSR-E: sharaku.eorc.nasda.go.jp/AMSR/index_e.htm
CMIS: www.ipo.noaa.gov/Technology/cmis_summary.html
MWR: envisat.esa.int/instruments/mwr/
SSM/I: nsidc.org/data/docs/daac/ssmi_instrument.gd.html
EUMETSAT ocean and sea ice: www.osi-saf.org
 

 

 

 
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