A steerable dual-channel microwave radiometer was installed on top of an oceanographic tower ofT shore from the Venice lagoon ( Italy) during the calibration experiment of the ERS-1 radar altimeter organized by the European Space Agency. Measurements of atmospheric brightness temperature were carried out over more than two months in the summer 1991. The main objective of the experiment was to obtain the tropospheric electromagnetic excess path length ( AW) required for the correction of the radar altimeter on board the satellite. The instrument calibration and the parameter retrieval algorithms were the main problems to be addressed. The retrieval of other meterological parameters, namely the precipitable water vapour ( K ) and the integrated cloud liquid ( L) was also assessed. An accuracy ( r.m.s.) of about 0-8cm in AH, 01cm in Vand 004mm in L is expected, resulting in a significant improvement when compared to those available from conventional meteorological data.
Microwave Radiometry of the Atmosphere: an Experiment from a Sea Based Platform During ERS-1 Altimeter Calibration / Ciotti, Piero; Basili, Patrizia; D'Auria, Giovanni; Marzano, FRANK SILVIO; Pierdicca, Nazzareno. - In: INTERNATIONAL JOURNAL OF REMOTE SENSING. - ISSN 0143-1161. - 16:(1995), pp. 2341-2356. [10.1080/01431169508954562]
Microwave Radiometry of the Atmosphere: an Experiment from a Sea Based Platform During ERS-1 Altimeter Calibration
CIOTTI, Piero;BASILI, Patrizia;D'AURIA, Giovanni;MARZANO, FRANK SILVIO;PIERDICCA, Nazzareno
1995
Abstract
A steerable dual-channel microwave radiometer was installed on top of an oceanographic tower ofT shore from the Venice lagoon ( Italy) during the calibration experiment of the ERS-1 radar altimeter organized by the European Space Agency. Measurements of atmospheric brightness temperature were carried out over more than two months in the summer 1991. The main objective of the experiment was to obtain the tropospheric electromagnetic excess path length ( AW) required for the correction of the radar altimeter on board the satellite. The instrument calibration and the parameter retrieval algorithms were the main problems to be addressed. The retrieval of other meterological parameters, namely the precipitable water vapour ( K ) and the integrated cloud liquid ( L) was also assessed. An accuracy ( r.m.s.) of about 0-8cm in AH, 01cm in Vand 004mm in L is expected, resulting in a significant improvement when compared to those available from conventional meteorological data.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
