A classification of system errors in aperture synthesis radiometry applied to Earth observation is presented. A general procedure to quantify the impact of antenna errors on the radiometric accuracy is developed and is then particularized to an L-band Y-shaped interferometer called MIRAS (microwave imaging radiometer by aperture synthesis) currently under study at the European Space Agency. This work analyzes in detail the impact of antenna errors on the radiometric accuracy of the instrument. These antenna errors are grouped into amplitude and phase antenna pattern errors, antenna position errors and antenna cross polarization errors. Special attention is paid to antenna coupling effects because of their importance in the selection of a su...
The Microwave Imaging Radiometer with Aperture Synthesis (MIRAS) instrument will be the first radiom...
Antenna pattern mismatches are one of the most important error sources in planned Earth-observation ...
Antenna pattern mismatches are one of the most important error sources in planned Earth-observation ...
A classification of system errors in aperture synthesis radiometry applied to Earth observation is p...
A classification of system errors in aperture synthesis radiometry applied to Earth obervation is pr...
The specifications of the subsystems that compound a radiometer interferometer devoted to Earth obse...
Aperture synthesis radiometry is becoming a feasible concept for imaging applications, especially at...
Aperture synthesis radiometry is becoming a feasible concept for imaging applications, especially at...
Abstract—Accurate measurement of the antenna voltage pat-terns of large-aperture synthesis radiomete...
Accurate measurement of the antenna voltage patterns of large-aperture synthesis radiometers is crit...
Accurate measurement of the antenna voltage patterns of large-aperture synthesis radiometers is crit...
Accurate measurement of the antenna voltage patterns of large-aperture synthesis radiometers is crit...
Accurate measurement of the antenna voltage patterns of large-aperture synthesis radiometers is crit...
The Microwave Imaging Radiometer with Aperture Synthesis (MIRAS) instrument will be the first radiom...
The Microwave Imaging Radiometer with Aperture Synthesis (MIRAS) instrument will be the first radiom...
The Microwave Imaging Radiometer with Aperture Synthesis (MIRAS) instrument will be the first radiom...
Antenna pattern mismatches are one of the most important error sources in planned Earth-observation ...
Antenna pattern mismatches are one of the most important error sources in planned Earth-observation ...
A classification of system errors in aperture synthesis radiometry applied to Earth observation is p...
A classification of system errors in aperture synthesis radiometry applied to Earth obervation is pr...
The specifications of the subsystems that compound a radiometer interferometer devoted to Earth obse...
Aperture synthesis radiometry is becoming a feasible concept for imaging applications, especially at...
Aperture synthesis radiometry is becoming a feasible concept for imaging applications, especially at...
Abstract—Accurate measurement of the antenna voltage pat-terns of large-aperture synthesis radiomete...
Accurate measurement of the antenna voltage patterns of large-aperture synthesis radiometers is crit...
Accurate measurement of the antenna voltage patterns of large-aperture synthesis radiometers is crit...
Accurate measurement of the antenna voltage patterns of large-aperture synthesis radiometers is crit...
Accurate measurement of the antenna voltage patterns of large-aperture synthesis radiometers is crit...
The Microwave Imaging Radiometer with Aperture Synthesis (MIRAS) instrument will be the first radiom...
The Microwave Imaging Radiometer with Aperture Synthesis (MIRAS) instrument will be the first radiom...
The Microwave Imaging Radiometer with Aperture Synthesis (MIRAS) instrument will be the first radiom...
Antenna pattern mismatches are one of the most important error sources in planned Earth-observation ...
Antenna pattern mismatches are one of the most important error sources in planned Earth-observation ...