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Developed jointly by the China National Space Administration (CNSA) and the Centre National d’Études Spatiales (CNES), CFOSAT carries two radar instruments. The SWIM (Surface Waves Investigation and Monitoring), is a wave scatterometer supplied by CNES and the SCAT (wind SCAT terometer), a wind-field scatterometer supplied by CNSA.

SWIM’s 6 rotating beams will enable it to measure wave properties (direction, wavelength, etc.), while SCAT will measure wind intensity and direction. The data will be downlinked to French and Chinese receiving stations.

These data will allow scientists to achieve more accurate ocean forecasts and give earlier warning of severe weather events like storms and cyclones. CFOSAT will also help climatologists to learn more about exchanges between the oceans and atmosphere, which play a key role in climate.

Conceived by the LATMOS atmospheres, environments and space observations laboratory in Paris and Guyancourt, the SWIM instrument was developed by Thales Alenia Space with oversight and funding from CNES. Other mission partners include the French Institute of marine research and exploration IFREMER, the French national weather service Meteo-France, and SHOM, the French naval hydrographic and oceanographic office.

Both instruments are Ku-band radars (13.2 to 13.6 GHz) scanning around the vertical axis. SWIM is a 6-beam radar at small incidence (0 to 10°), SCAT is a rotating fan-beam radar with larger incidence angles (18~50°). This combination of incidence angles is necessary to measure the wind vector (from large incidence) and wave properties (from small incidence).

The interest for the combination of the two payloads is evident since surface wind is the energy source which creates the surface waves; the space and time evolution of these surface waves is dependent on both local and remote wind conditions. The combination of the two instruments will help to separate the different effects governing the evolution of the wave field.

CFOSAT is a pre-operational mission of joint measurements of winds and waves which aims is to supply wind/wave observations in near-real time to the meteorological agencies to improve their forecast and sea state models. These measurements will also be supplied to the scientific community for the oceanographic and climate research to improve sea models as well as our understanding of the influence of the sea state on surface fluxes.

Operating at an altitude of 519 km, CFOSAT’s data availability will be in near-real time (less than three hours after acquisition) for the meteorological agencies. Data distribution will be made on request through a server and an authentication for the scientists, and systematically through meteorological servers for the meteorological agencies. The satellite will have a global coverage at a 13-day scale for SWIM and at a 3-day scale for SCAT.

CFOSAT is based on the CAST2000 satellite bus provided by the DFH Satellite Corp. The spacecraft has a launch mass of 600 kg and the primary structure has a size of 1.4 m x 1.4 m x 1.2 m. Mission design life is 3 years.

Alternate Names

  • 43662
  • Chinese-French Oceanography Satellite
  • Zhongfa Haiyangxue Weixing

Facts in Brief

Launch Date: 2020-10-29
Launch Vehicle: Long March 2C
Launch Site: Jiuquan, Peoples Republic of China

Funding Agencies

  • China National Space Administration (Peoples Republic of China)
  • Centre National d'Etudes Spatiales (France)


  • Earth Science

Additional Information

Questions and comments about this spacecraft can be directed to: Coordinated Request and User Support Office

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