Title :
Polarimetric radiometer configurations: potential accuracy and sensitivity
Author :
Skou, Niels ; Laursen, Brian ; Søbjærg, Sten
Author_Institution :
Dept. of Electromagn. Syst., Tech. Univ., Lyngby, Denmark
fDate :
9/1/1999 12:00:00 AM
Abstract :
Ocean wind speed and direction can be assessed with a polarimetric radiometer system measuring the full set of Stokes parameters. There are two fundamentally different ways of implementing the polarimetric radiometer system: polarization combining and correlation radiometer systems. Also, within each fundamental category there are significant tradeoffs. This paper discusses the different implementation possibilities. Paramount issues are potential instrument stability and sensitivity as well as the tradeoff between increased microwave hardware complexity and fast digital correlator circuitry. It is concluded that each implementation has its role to play, but for a given application the choice of system configuration is important. Following these considerations, a second-generation airborne, imaging, polarimetric radiometer system, used by the authors for ocean wind vector sensing, is described and discussed
Keywords :
atmospheric measuring apparatus; atmospheric techniques; polarimeters; polarimetry; radiometers; radiometry; remote sensing; wind; Stokes parameters; accuracy; atmosphere; correlation radiometer; fast digital correlator; implementation possibility; marine atmosphere; measurement technique; meteorology; microwave hardware complexity; microwave radiometry; polarimetric radiometer; polarimetric radiometer configuration; polarization; remote sensing; sensitivity; system configuration; wind; wind direction; wind speed; Circuit stability; Hardware; Instruments; Microwave radiometry; Oceans; Polarization; Sea measurements; Stokes parameters; Velocity measurement; Wind speed;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
