DocumentCode
1009592
Title
Correlation Denormalization in Interferometric or Polarimetric Radiometers: A Unified Approach
Author
Colliander, Andreas ; Torres, Francesc ; Corbella, Ignasi
Author_Institution
Helsinki Univ. of Technol., Espoo
Volume
47
Issue
2
fYear
2009
Firstpage
561
Lastpage
568
Abstract
This paper presents a general analysis of correlation measurements in an interferometer or a radiometer based on noise injection and/or switching and measurement of normalized correlations (e.g., imaging synthetic aperture or polarimetric radiometers). A compact unifying notation for denormalizing the measured normalized correlations in the presence of noise injection in one or both of the receiving channels is presented. Technological limitations are also assessed by evaluating the effect of associated approximations. Finally, the approach is validated by experimental results of the measurement and calibration of related front-end nonidealities, namely, the finite isolation of the front-end switch. The methods presented in this paper are illustrated by a thorough analysis of the so-called mixed baselines of microwave imaging radiometer using aperture synthesis, which refer to those baselines which are formed between the regular receivers (light-weight cost-efficient front-end) and the reference radiometers. These baselines require special attention, since the reference radiometers are noise-injection radiometers, which inject noise to the measured signal, whereas the regular receivers are total power receivers.
Keywords
geophysical techniques; polarimetry; radiometers; radiowave interferometry; MIRAS; calibration; correlation denormalization; front-end nonidealities; front-end switch; interferometric radiometer; measured normalized correlations; microwave imaging radiometer using aperture synthesis; noise injection; noise-injection radiometers; polarimetric radiometer; reference radiometer; regular receiver; total power receivers; Denormalization; Microwave Imaging Radiometer using Aperture Synthesis (MIRAS); interferometric radiometry; polarimetric radiometer; synthetic aperture radiometry;
fLanguage
English
Journal_Title
Geoscience and Remote Sensing, IEEE Transactions on
Publisher
ieee
ISSN
0196-2892
Type
jour
DOI
10.1109/TGRS.2008.2003247
Filename
4689352
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