Temperature retrieval for Earth's surfaces using BIRD (Bi-spectral InfraRed detection)

Abstract

The Earth's surface temperature is a key parameter for the understanding of the energetic and hydrological balance of the Earth. Continuous measurements of the global temperature distribution provide information on its changes and impact on the global climate. With the BIRD small satellite mission (size: 158 cm/spl times/64 cm/spl times/52 cm, mass: 85 kg) a new generation of imaging infrared sensors to be used in space will be tested. The main scientific tasks include the developing of temperature retrieval methods for high-temperature-events like fires, volcanos etc. as well as for normal Earth's surface temperature like the temperature of vegetation, etc.-the fire surrounding temperature. BIRD, a multi-spectral sensor system, is slated to be launched in 2000. It consists of two IR cameras (3.4-4.2 /spl mu/m (MIR-Mid InfraRed) and 8.5-9.3 /spl mu/m (TIR-Thermal InfraRed)) as well as a stereo camera WAOSS (Wide-Angle Optoelectronic Stereo Scanner) where the spectral ranges lie within the visible (VIS) and the near infrared (NIR). Two temperature retrieval methods customized for the BIRD channel constellation are established. One method is based on a multi-spectral regression (referred to as regression-approach) using brightness temperatures of both channels at the top of the atmosphere. The other approach recovers land surface emissivity and temperature from ground radiances utilizing a Temperature Independent Spectral Index for Emissivity (referred to as TISIE-approach). Both methods lead to equivalent temperature retrieval errors, but the TISIE-approach does not need an a priori knowledge of the emissivity.