Your search keyword '"Corbella, Ignasi"' showing total 23 results

1. On-ground characterization of the SMOS payload

Author

Corbella, Ignasi, Torres, Francesc, Duffo, Nuria, Martin-Neira, Manuel, Gonzalez-Gambau, Veronica, Camps, Adriano, and Vall-llossera, Merce

Subjects

Microwave radiometers -- Usage, Interferometry -- Technology application, Soil moisture -- Measurement, Salinity -- Measurement, Technology application, Business, Earth sciences, Electronics and electrical industries

Published

2009

2. Correlation denormalization in interferometric or polarimetric radiometers: a unified approach

Author

Colliander, Andreas, Torres, Francesc, and Corbella, Ignasi

Subjects

Interferometry -- Methods, Microwave radiometers -- Design and construction, Microwave radiometers -- Usage, Correlation (Statistics) -- Methods, Remote sensing -- Research, Business, Earth sciences, Electronics and electrical industries

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. Index Terms--Denormalization, interferometric radiometry, Microwave Imaging Radiometer using Aperture Synthesis (MIRAS), polarimetric radiometer, synthetic aperture radiometry.

Published

2009

3. Brightness-temperature retrieval methods in synthetic aperture radiometers

Author

Corbella, Ignasi, Torres, Francesc, Camps, Adriano, Duffo, Nuria, and Vall-llossera, Merce

Subjects

Radiometers -- Analysis, Synthetic aperture radar -- Analysis, Business, Earth sciences, Electronics and electrical industries

Abstract

Brightness-temperature retrieval techniques for synthetic aperture radiometers are reviewed. Three different approaches to combine measured visibility and antenna temperatures, along with instrument characterization data, into a general equation to invert are presented. Discretization and windowing techniques are briefly discussed, and formulas for reciprocal grids using rectangular and hexagonal samplings are given. Two known techniques are used to invert the equation, namely, inverse Fourier transform and G-matrix pseudoinverse. The proposed preprocessing approaches combined with these two inversion methods are implemented with real data measured by an airborne Y-shaped interferometric radiometer over land and water, and are compared. The images indicate that best results are obtained when inverting an incremental visibility obtained after substracting a term that includes the individual antenna temperatures, the physical temperatures of the receivers, and a flat-target response directly measured from cold-sky looks. Index Terms--Brightness temperature image reconstruction, interferometry, synthetic aperture microwave radiometers.

Published

2009

4. AMIRAS--an airborne MIRAS demonstrator

Author

Martin-Neira, Manuel, Cabeza, Isabel, Perez, Cesar, Palacios, Miguel Angel, Guijarro, Miguel Angel, Ribo, Serni, Corbella, Ignasi, Blanch, Sebastian, Torres, Francesc, Duffo, Nuria, Gonzalez, Veronica, Beraza, S., Camps, Adriano, Vall-llossera, Merce, Tauriainen, Simo, Pihlflyckt, Jorgen, Gonzalez, Jesus Pablo, and Martin-Porqueras, Fernando

Subjects

Soil moisture -- Observations, Salinity -- Observations, Holes -- Observations, Business, Earth sciences, Electronics and electrical industries

Abstract

This paper describes AMIRAS, an airborne demonstrator of the Microwave Imaging Radiometer with Aperture Synthesis, which is the instrument onboard ESA's Soil Moisture and Ocean Salinity (SMOS) mission. The main electrical, mechanical, thermal, and control elements of the demonstrator are shown, together with its capabilities and performances as demonstrator of the spaceborne instrument. AMIRAS main tests inside an anechoic chamber, field ground experiments, and its first two maiden flights are reported, and some results of these tests are highlighted. AMIRAS will further be used in some calibration and validation campaigns of the SMOS mission. Index Terms--Aperture synthesis, microwave imaging radiometer with aperture synthesis (MIRAS), microwave radiometry, Soil Moisture and Ocean Salinity (SMOS).

Published

2008

5. SMOS calibration

Author

Brown, Michael A., Torres, Francesc, Corbella, Ignasi, and Colliander, Andreas

Subjects

Soil moisture -- Analysis, Soil moisture -- Observations, Salinity -- Observations, Salinity -- Analysis, Geophysical research, Business, Earth sciences, Electronics and electrical industries

Abstract

The calibration of the Soil Moisture and Ocean Salinity (SMOS) payload instrument, known as Microwave Imaging Radiometer by Aperture Synthesis (MIRAS), is based on characterization measurements which are performed initially on-ground prior to launch and, subsequently, in-flight. A good calibration is a prerequisite to ensure the quality of the geophysical data. The calibration scheme encompasses both the spaceborne instrument and the ground data processing. Once the system has been calibrated, the instrument performance can be verified, and the higher level geophysical variables, soil moisture and ocean salinity, can be validated. In this paper, the overall calibration approach is presented, focusing on the main aspects relevant to the SMOS instrument design and mission requirements. The distributed instrument, comprising 72 receivers, leads to a distributed internal calibration approach supported by specific external calibration measurements. The relationship between the calibration data and the routine ground processing is summarized, demonstrating the inherent link between them. Finally, the approach to the in-flight commissioning activities is discussed. Index Terms--Calibration, Microwave Imaging Radiometer by Aperture Synthesis (MIRAS), Soil Moisture and Ocean Salinity (SMOS), verification.

Published

2008

6. Improved image reconstruction algorithms for aperture synthesis radiometers

Author

Camps, Adriano, Vall-llossera, Merce, Corbella, Ignasi, Duffo, Nuria, and Torres, Francesc

Subjects

Business, Earth sciences, Electronics and electrical industries

Abstract

The European Space Agency's Soil Moisture and Ocean Salinity (SMOS) mission aims at producing global and frequent maps of SMOS and will be launched in 2008. SMOS' single payload is a new type of radiometer called Microwave Imaging Radiometer by Aperture Synthesis (MIRAS) operating at L-band in which brightness temperature images are formed by a Fourier synthesis technique. However, in the alias-free field of view where the brightness temperature images are reconstructed, a bias is present which has been found to be higher for high-contrast brightness temperature scenes (coastlines) and lower for homogeneous scenes (all oceans or lands). This scene-dependent bias will ultimately limit the achievable accuracy of the retrieved geophysical parameters, and it is particularly critical for the retrieval of sea surface salinity. This paper presents a general analysis of the origin of this bias, which is found to be actually due to the different measurement errors in the instrument observables (visibility samples). An improvement of the image reconstruction algorithm is then presented to mitigate it. As compared with the previous algorithm versions, the proposed improved reconstruction algorithm further decomposes the visibility samples into some new terms: ocean and land/iced sea, instead of just the Earth's disk over the sky background. This decomposition aims at further reducing the contrast (high-frequency components) in the differential image and, therefore, minimizes the impact of multiplicative errors, improving the radiometric accuracy. In addition, this approach proves to perform the image reconstruction in part of the alias regions and improves the quality of the reconstruction close to the coastlines. Index Terms--Aperture synthesis radiometers, bias, errors, image reconstruction, soil moisture and ocean salinity ISMOS).

Published

2008

7. Denormalization of visibilities for in-orbit calibration of interferometric radiometers

Author

Torres, Francesc, Corbella, Ignasi, Camps, Adriano, Duffo, Nuria, Vall-llossera, Merce, Beraza, Santiago, Gutierrez, Carles, and Martin-Neira, Manuel

Subjects

Interferometry -- Research, Salinity -- Research, Business, Earth sciences, Electronics and electrical industries

Abstract

This paper reviews the relative calibration of an interferometric radiometer taking into account the experimental results of the first batch of receivers developed in the frame of the European Space Agency's Soil Moisture and Ocean Salinity mission. Measurements show state-of-the-art baseline performance as long as the system is capable of correcting the effect of orbital temperature swing. A method to validate internal calibration during in-orbit deep-sky views and to correct linearity errors is also presented. Index Terms--Calibration, interferometry, radiometer.

Published

2006

8. Analysis of correlation and total power radiometer front-ends using noise waves

Author

Corbella, Ignasi, Torres, Francesc, Camps, Adriano, Duffo, Nuria, Vall-llossera, Merce, Rautiainen, Kimmo, Martin-Neira, Manuel, and Colliander, Andreas

Subjects

Correlation (Statistics) -- Analysis, Radiation -- Measurement, Business, Earth sciences, Electronics and electrical industries

Abstract

A complete and systematic noise analysis of radiometer front-ends, including both total power and correlation measurements, is presented. The procedure uses the concepts of noise waves and S-parameters, widely used in microwave systems design and takes into account full noise characterization of receivers including mismatch effects. The general formulation is compatible with known total power radiometer analysis and is specially appropriate in correlation radiometers for which the effect of nonideal components, such as input isolators, is analyzed. Along with numerical simulations, simple formulas are given to compute the measured visibility in nonideal conditions. The analysis is validated using experimental results consisting of correlation measurements of four receivers placed inside an anechoic chamber. Good agreement between theoretical predictions and experimental data is observed. Index Terms--Interferometric aperture synthesis radiometry, microwave radiometry, polarimetric radiometry, radiometer calibration.

Published

2005

9. Performance of sea surface salinity and soil moisture retrieval algorithms with different auxiliary datasets in 2-D L-band aperture synthesis interferometric radiometers

Author

Camps, Adriano, Vall-llossera, Merce, Duffo, Nuria, Torres, Francesc, and Corbella, Ignasi

Subjects

Soils -- Research, Remote sensing -- Research, Algorithms -- Technology application, Algorithm, Technology application, Business, Earth sciences, Electronics and electrical industries, European Space Agency

Abstract

The Soil Moisture and Ocean Salinity (SMOS) Earth Explorer Opportunity Mission was selected in May 1999 by the European Space Agency Earth Observation Programme Board to provide global and frequent soil moisture (SM) and sea surface salinity (SSS) maps. SMOS' single payload is the Microwave Imaging Radiometer by Aperture Synthesis (MIRAS) sensor, an L-band two-dimensional aperture synthesis interferometric radiometer with multiangular and polarimetric imaging capabilities. The definition of the SMOS Level 2 Processor requires the selection of the optimum operation mode (dual-polarization or full-polarimetric) for each application, the specification of the required auxiliary data, and the optimum retrieval algorithms. Using the SMOS simulator and based on the experience gained in previous works, this paper presents a study of the SM and SSS retrieval capabilities over homogeneous pixels, in the two modes of operation with different auxiliary data. It is found that SSS retrievals using the first Stokes parameter measured in the dual-polarization mode perform somewhat worse than using the vertical ([T.sub.vv]) and horizontal ([T.sub.hh]) brightness temperatures measured in the full-polarimetric mode, and the performance degrades for cold waters due to the lower sensitivity of the brightness temperature to SSS at low sea surface temperature (SST). Due to the larger angular variation of [T.sub.hh] and [T.sub.vv], SM retrievals using [T.sub.hh] and [T.sub.vv] measured in the full-polarimetric mode exhibit a significant better performance over bare soils than over vegetation-covered soils. Over vegetation-covered soils vegetation parameters (opacity and albedo) can be inferred over a 550-km swath width in the full-polarimetric mode. However, since the first Stokes parameter is independent of both geometric and Faraday rotations, it is very robust in the presence of instrumental and geophysical errors. In the SSS retrieval problem and in the SM retrieval problem (with [T.sub.hh] and [T.sub.vv] measured in the full-polarimetric mode), the performance of the retrieval algorithms tested is not significantly altered if the model parameters are not exactly known, but are left as adjustable parameters in the optimization process. Index Terms--Aperture synthesis, L-band, ocean salinity, radiometry, retrieval, soil moisture.

Published

2005

10. MIRAS end-to-end calibration: application to SMOS L1 processor

Author

Corbella, Ignasi, Torres, Francesc, Camps, Adriano, Colliander, Andreas, Martin-Neira, Manuel, Ribo, Serni, Rautiainen, Kimmo, Duffo, Nuria, and Vall-llossera, Merce

Subjects

Remote sensing -- Research, Radiation -- Measurement, Radiation -- Research, Algorithms, Algorithm, Business, Earth sciences, Electronics and electrical industries

Abstract

End-to-end calibration of the Microwave Imaging Radiometer by Aperture Synthesis (MIRAS) radiometer refers to processing the measured raw data up to dual-polarization brightness temperature maps over the earth's surface, which is the level 1 product of the Soil Moisture and Ocean Salinity (SMOS) mission. The process starts with a self-correction of comparators offset and quadrature error and is followed by the calibration procedure itself. This one is based on periodically injecting correlated and uncorrelated noise to all receivers in order to measure their relevant parameters, which are then used to correct the raw data. This can deal with most of the errors associated with the receivers hut does not correct for antenna errors, which must be included in the image reconstruction algorithm. Relative S-parameters of the noise injection network and of the input switch are needed as additional data, whereas the whole process is independent of the exact value of the noise source power and of the distribution network physical temperature. On the other hand, the approach relies on having at least one very well-calibrated reference receiver, which is implemented as a noise injection radiometer. The result is the calibrated visibility function, which is inverted by the image reconstruction algorithm to get the brightness temperature as a function of the director cosines at the antenna reference plane. The final step is a coordinate rotation to obtain the horizontal and vertical brightness temperature maps over the earth. The procedures presented are validated using a complete SMOS simulator previously developed by the authors. Index Terms--Calibration, data processing, image reconstruction, microwave radiometry, synthetic aperture imaging.

Published

2005

11. SMOS REFLEX 2003: L-Band emissivity characterization of vineyards

Author

Vall-llossera, Merce, Camps, Adriano, Corbella, Ignasi, Torres, Francesc, Duffo, Nuria, Monerris, Alessandra, Sabia, Roberto, Selva, Daniel, Antolin, Carmen, Lopez-Baeza, Ernesto, Ferrer, Joan Ferran, and Saleh, Kauzar

Subjects

Vineyards -- Research, Remote sensing -- Research, Ocean -- Research, Soils -- Research, Algorithms -- Technology application, Radiation -- Measurement, Radiation -- Research, Algorithm, Technology application, Business, Earth sciences, Electronics and electrical industries

Abstract

The goal of the Soil Moisture and Ocean Salinity mission over land is to infer surface soil moisture from multiangular L-band radiometric measurements. As the canopy affects the microwave emission of land, it is necessary to characterize different vegetation layers. This paper presents the Reference Pixel L-Band Experiment (REFLEX), carried out in June-July 2003 at the Valencia Anchor Station, Spain, to study the effects of grapevines on the soil emission and on the soil moisture retrieval. A wide range of soil moisture (SM), from saturated to completely dry soil, was measured with the Universitat Politecnica de Catalunya's L-band Automatic Radiometer (LAURA). Concurrently with the radiometric measurements, the gravimetric soil moisture, temperature, and roughness were measured, and the vines were fully characterized. The opacity and albedo of the vineyard have been estimated and found to be independent on the polarization. The [tau]--[omega] model has been used to retrieve the SM and the vegetation parameters, obtaining a good accuracy for incidence angles up to 55[degrees]. Algorithms with a three-parameter optimization (SM, albedo albedo, and opacity) exhibit a better performance than those with one-parameter optimization (SM). Index Terms--L-band microwave radiometry, soil moisture, vineyards.

Published

2005

12. The emissivity of foam-covered water surface at L-band: theoretical modeling and experimental results from the frog 2003 field experiment

Author

Camps, Adriano, Vall-llossera, Merce, Villarino, Ramon, Reul, Nicolas, Chapron, Bertrand, Corbella, Ignasi, Duffo, Nuria, Torres, Frances, Miranda, Jorge Jose, Sabia, Roberto, Monerris, Alessandra, and Rodriguez, Ruben

Subjects

Salinity -- Measurement, Microwave devices -- Usage, Radiation -- Measurement, Radiation -- Research, Business, Earth sciences, Electronics and electrical industries

Abstract

Sea surface salinity can be measured by microwave radiometry at L-band (1400-1427 MHz). This frequency is a compromise between sensitivity to the salinity, small atmospheric perturbation, and reasonable pixel resolution. The description of the ocean emission depends on two main factors: 1) the sea water permittivity, which is a function of salinity, temperature, and frequency, and 2) the sea surface state, which depends on the wind-induced wave spectrum, swell, and rain-induced roughness spectrum, and by the foam coverage and its emissivity. This study presents a simplified two-layer emission model for foam-covered water and the results of a controlled experiment to measure the foam emissivity as a function of salinity, foam thickness, incidence angle, and polarization. Experimental results are presented, 37 psu salt water the foam-induced emissivity increase is ~0.007 per millimeter of foam thickness (extrapolated to nadir), increasing with increasing incidence angles at vertical polarization, and decreasing with increasing incidence angles at horizontal polarization. Index Term--Brightness temperature, emission, foam, microwave radiometry, salinity, sea.

Published

2005

13. The visibility function in interferometric aperture synthesis radiometry

Author

Corbella, Ignasi, Duffo, Nuria, Vall-Ilossera, Merce, Camps, Adriano, and Torres, Francesc

Subjects

Remote sensing -- Research, Business, Earth sciences, Electronics and electrical industries

Abstract

The fundamental equation of interferometric aperture synthesis radiometry is revised to include full antenna pattern characterization and receivers' interaction. It is shown that the cross correlation between the output signals of a pair of receivers is a Fourier-like integral of the difference between the scene brightness temperature and the physical temperature of the receivers. The derivation is performed using a thermodynamic approach to account for the effects of mutual coupling between antenna elements. The analysis assumes that the receivers include ferrite isolators so that the noise wave passing from the receiver toward the antenna can be modeled as uncorrelated ambient noise. The effect of wide beamwidth antennas on the polarization basis of the retrieved brightness temperature is also discussed. Index Terms--Interferometric aperture synthesis, microwave radiometry.

Published

2004

14. Sun effects in 2-D aperture synthesis radiometry imaging and their cancelation

Author

Camps, Adriano, Vall-llossera, Merce, Duffo, Nuria, Zapata, M., Corbella, Ignasi, Torres, Francesc, and Barrena, V.

Subjects

Remote sensing -- Research, Business, Earth sciences, Electronics and electrical industries

Abstract

The Microwave Imaging Radiometer by Aperture Synthesis (MIRAS) is the single payload of the European Space Agency's (ESA) Soil Moisture and Ocean Salinity (SMOS) Earth Explorer Opportunity mission. MIRAS will be the first two-dimensional aperture synthesis radiometer for earth observation. Two-dimensional aperture synthesis radiometers can generate brightness temperature images by a Fourier synthesis process without mechanical antenna steering. To do so and have the necessary wide swath for earth observation, the array is formed by small and low directive antennas, which do not attenuate enough bright noise sources that may interfere with the measurements. This study analyzes the impact of the radio-frequency emission from the sun in the SMOS mission, reviews the basic image reconstruction algorithms, and proposes a technique to minimize sun effects. Index Terms--Antenna arrays, imaging, interferometry, radiometry.

Published

2004

15. The WISE 2000 and 2001 field experiments in support of the SMOS mission: sea surface L-band brightness temperature observations and their application to sea surface salinity retrieval

Author

Camps, Adriano, Font, Jordi, Vall-llossera, Merce, Gabarro, Carolina, Corbella, Ignasi, Duffo, Nuria, Torres, Francesc, Blanch, Sebastian, Aguasca, Albert, Villarino, Ramon, Enrique, Luis, Miranda, Jorge Jose, Arenas, Juan Jose, Julia, Agusti, Etcheto, Jacqueline, Caselles, Vicente, Weill, Alain, Boutin, Jacqueline, Contardo, Stephanie, Niclos, Raquel, Rivas, Raul, Reising, Steven C., Wursteisen, P., Berger, Michael, and Martin-Neira, Manuel

Subjects

Remote sensing -- Research, Business, Earth sciences, Electronics and electrical industries

Abstract

Soil Moisture and Ocean Salinity (SMOS) is an Earth Explorer Opportunity Mission from the European Space Agency with a launch date in 2007. Its goal is to produce global maps of soil moisture and ocean salinity variables for climatic studies using a new dual-polarization L-band (1400-1427 MHz) radiometer Microwave Imaging Radiometer by Aperture Synthesis (MIRAS). SMOS will have multiangular observation capability and can be optionally operated in full-polarimetric mode. At this frequency the sensitivity of the brightness temperature ([T.sub.B]) to the sea surface salinity (SSS) is low: 0.5 K/psu for a sea surface temperature (SST) of 20[degrees]C, decreasing to 0.25 K/psu for a SST of 0[degrees]C. Since other variables than SSS influence the [T.sub.B] signal (sea surface temperature, surface roughness and foam), the accuracy of the SSS measurement will degrade unless these effects are properly accounted for. The main objective of the ESA-sponsored Wind and Salinity Experiment (WISE) field experiments has been the improvement of our understanding of the sea state effects on [T.sub.B] at different incidence angles and polarizations. This understanding will help to develop and improve sea surface emissivity models to be used in the SMOS SSS retrieval algorithms. This paper summarizes the main results of the WISE field experiments on sea surface emissivity at L-band and its application to a performance study of multiangular sea surface salinity retrieval algorithms. The processing of the data reveals a sensitivity of [T.sub.B] to wind speed extrapolated at nadir of ~0.23-0.25 K/(m/s), increasing at horizonal (H) polarization up to ~0.5 K/(m/s), and decreasing at vertical (V) polarization down to ~-0.2 K/(m/s) at 65[degrees] incidence angle. The sensitivity of [T.sub.B] to significant wave height extrapolated to nadir is ~1 K/m, increasing at H-polarization up to ~1.5 K/m, and decreasing at V-polarization down to -0.5 K/m at 65[degrees]. A modulation of the instantaneous brightness temperature [T.sub.B](t) is found to be correlated with the measured sea surface slope spectra. Peaks in [T.sub.B](t) are due to foam, which has allowed estimates of the foam brightness temperature and, taking into account the fractional foam coverage, the foam impact on the sea surface brightness temperature. It is suspected that a small azimuthal modulation ~0.2-0.3 K exists for low to moderate wind speeds. However, much larger values (4-5 K peak-to-peak) were registered during a strong storm, which could be due to increased foam. These sensitivities are satisfactorily compared to numerical models, and multiangular [T.sub.B] data have been successfully used to retrieve sea surface salinity. Index Terms--Foam, L-band, radiometry, sea salinity retrieval, sea spectrum, waves, wind.

Published

2004

16. Sea state effect on the sea surface emissivity at L-band

Author

Miranda, Jorge Jose, Vall-llossera, Merce, Camps, Adriano, Duffo, Nuria, Corbella, Ignasi, and Etcheto, Jacqueline

Subjects

Soils -- Research, Remote sensing -- Research, Business, Earth sciences, Electronics and electrical industries

Abstract

In May 1999, the European Space Agency (ESA) selected the Earth Explorer Opportunity Soil Moisture and Ocean Salinity (SMOS) mission to obtain global and frequent soil moisture and ocean salinity maps. SMOS single payload is the Microwave Imaging Radiometer by Aperture Synthesis (MIRAS), an L-band two-dimensional aperture synthesis radiometer with multiangular observation capabilities. At L-band, the brightness temperature sensitivity to the sea surface salinity (SSS) is low, approximately 0.5 K/psu at 20 [degrees]C, decreasing to 0.25 K/psu at 0 [degrees]C, comparable to that to the wind speed ~ 0.2 K/(m/s) at nadir. However, at a given time, the sea state does not depend only on local winds, but on the local wind history and the presence of waves traveling from far distances. The Wnd and Salinity Experiment (WISE) 2000 and 2001 campaigns were sponsored by ESA to determine the impact of oceanographic and atmospheric variables on the L-band brightness temperature at vertical and horizontal polarizations. This paper presents the results of the analysis of three nonstationary sea state conditions: growing and decreasing sea, and the presence of swell. Measured sea surface spectra are compared with the theoretical ones, computed using the instantaneous wind speed. Differences can be minimized using an 'effective wind speed' that makes the theoretical spectrum best match the measured one. The impact on the predicted brightness temperatures is then assessed using the small slope approximation/small perturbation method (SSA/SPM). Index Terms--Nonstationary sea conditions, sea surface emissivity at L-band, sea surface spectrum, swell effect.

Published

2003

17. A calibration method for fully polarimetric microwave radiometers

Author

Lahtinen, Janne, Gasiewski, A.J., Klein, Marian, and Corbella, Ignasi S.

Subjects

Polariscope -- Maintenance and repair, Calibration -- Methods, Radiometers -- Maintenance and repair, Microwave detectors -- Maintenance and repair, Dielectric devices -- Maintenance and repair, Business, Earth sciences, Electronics and electrical industries

Abstract

A technique for absolute end-to-end calibration of a fully polarimetric microwave radiometer is presented. The technique is based on the tripolarimetric calibration technique of Gasiewski and Kunkee, but is extended to provide a means of calibrating all four Stokes parameters. The extension is facilitated using a biaxial phase-retarding microwave plate to provide a precisely known fourth Stokes signal from the Gasiewski-Kunkee (GK) linearly polarized standard. The relations needed to determine the Stokes vector produced by the augmented standard are presented, and the effects of nonidealities in the various components are discussed. The application of the extended standard to determining the complete set of radiometer constants (the calibration matrix elements) for the National Oceanic and Atmospheric Administration Polarimetric Scanning Radiometer in a laboratory environment is illustrated. A calibration matrix inversion technique and error analysis are described, as well. The uncertainties associated with practical implementation of the fully polarimetric standard for spaceborne wind vector measurements are discussed relative to error thresholds anticipated for wind vector retrieval from the U.S. National Polar-Orbiting Environmental Satellite System. Index Terms--Calibration, dielectric devices, error analysis, microwave radiometry, polarimetry, remote sensing, wind.

Published

2003

18. On-board accurate calibration of dual-channel radiometers using internal and external references

Author

Corbella, Ignasi, Gasiewski, Albin J., Klein, Marian, Leuski, Vladimir, Francavilla, Anthony J., and Piepmeier, Jeffrey R.

Subjects

Microwaves -- Research, Radiation -- Measurement, Business, Computers, Electronics, Electronics and electrical industries

Abstract

This paper presents a method for combining internal noise injection and external reference standard looks to accurately calibrate an airborne dual-channel radiometer. The method allows real-time estimation of the correct values of the radiometer gains and offsets, even for nontemperature-stabilized radiometers and with minimum loss of measurement time spent in external load measurement. Crosstalk and leakage introduced by the noise injection circuitry is also taken into account, thus providing high gain and offset estimation accuracy. The method was implemented on a National Oceanic and Atmospheric Administration airborne instrument, the Polarimetric Scanning Radiometer, which was used to obtain an extensive set of radiometric measurements over oceanic convection during CAMEX3 in August-September 1998. Index Terms--Calibration, radiometry.

Published

2002

19. Radiometric sensitivity computation in aperture synthesis interferometric radiometry

Author

Camps, Adriano, Corbella, Ignasi, Bara, Javier, and Torres, Francis

Subjects

Radiometers -- Evaluation, Interferometry -- Research, Remote sensing -- Research, Business, Earth sciences, Electronics and electrical industries

Abstract

This paper is concerned with the radiometric sensitivity computation of an aperture synthesis interferometric radiometer devoted to earth observation. The impact of system parameters and the use of simultaneous redundant measurements are analyzed. The Interferometric Radiometer Uncertainty Principle is presented; it quantifies the relationship between radiometric sensitivity and angular resolution. Index Terms - Interferometry, radiometry, remote sensing, sensitivity.

Published

1998

20. Instantaneous model of a MESFET for use in linear and nonlinear circuit simulations

Author

Corbella, Ignasi, Legido, Josep Maria, and Naval, Gonzalo

Subjects

Field-effect transistors -- Models, Simulation methods -- Research, Computer simulation -- Research, Integrated circuits -- Models, Business, Computers, Electronics, Electronics and electrical industries

Abstract

A formal approach for nonlinear modeling of FET's is presented. The intrinsic transistor is described by current and charge generators, that are instantaneously dependent on the two internal voltages. The extrinsic parasitic elements are also included. This instantaneous model is obtained from the small signal equivalent circuit computed at a number of bias points, by integration of the bias dependent elements. A program for using this model in nonlinear circuit analysis has been developed. The process has been carried out for two transistors, one being of low noise, and the other a power MESFET. Good agreement has been observed when comparing the nonlinear analysis with measured data. Finally a Solid State Power Amplifier at 28 GHz has been designed using the power transistor, delivering 21 dBm at 1 dB compression point.

Published

1992

21. The Correlation of Visibilty Noise and Its Impact on the Radiometric Resolution of an Aperture Synthesis Radiometer

Author

Bara, Javier, Camps, Adriano, Torres, Francesc, and Corbella, Ignasi

Subjects

Microwave receivers -- Usage, Synthetic aperture radar -- Image quality, Radiation -- Measurement, Earth sciences -- Remote sensing, Business, Earth sciences, Electronics and electrical industries

Abstract

The correlation between the visibility samples' noise of an aperture synthesis radiometer are required for the computation of the recovered temperature noise of a given pixel and of the improvement introduced by baseline redundance. A general expression for this correlation and noise examples for a linear array are presented. Index Terms--Microwave radiometry, microwave receivers, radio interferometry, radiometry, remote sensing, synthetic aperture imaging.

Published

2000

22. Analysis of Noise-Injection Networks for Interferometric-Radiometer Calibration

Author

Corbella, Ignasi, Camps, Adriano, Torres, Francesc, and Bara, Javier

Subjects

Radiation -- Measurement, Interferometry -- Research, Business, Computers, Electronics, Electronics and electrical industries

Abstract

The spatial resolution of current space-borne Earth observation radiometers is limited by the physical antenna aperture. This is especially critical at L-band, which exhibits high sensitivity to soil moisture and sea surface salinity. Interferometric radiometers (InR's) are currently being studied by several space agencies as a feasible alternative to overcome this problem. However, their calibration is a crucial issue since most techniques inherited from radio astronomy cannot be directly applied. Due to the large number of receiving channels, calibration techniques based on centralized noise injection from a single noise source will require a large and stable distribution network, which is technically very complex and unacceptable from the point-of-view of mass and volume. Procedures based on distributed noise injection from a set of noise sources through smaller distribution networks have been recently proposed by the authors as an alternative to alleviate these technological problems. In this paper, the analysis of these networks, the impact of the noise generated by the network losses on the calibration, and the impact of front-end reradiated noise are analyzed. Finally, the optimum circuit topologies and tolerances to which these networks have to be characterized in order to achieve the required calibration are derived. These configurations are formed by cascading basic 1:2 and 1:3 isolated power splitters. Isolators at receivers' inputs have to be included in order to minimize offsets originated from the correlation of reradiation of receiver noise. It has been found that, in order to satisfy the calibration requirements of InR's, the S-parameters of the ensemble noise-injection network plus isolators have to be known to within 0.025-0.050 dB in amplitude and 0.5 [degrees] in phase, and their physical temperature known to within 0.5 [degrees] C. Index Terms--Calibration, interferometry, noisy networks, radiometry.

Published

2000

23. RF Interference Analysis in Aperture Synthesis Interferometric Radiometers: Application to L-Band MIRAS Instrument

Author

Camps, Adriano J., Corbella, Ignasi, Torres, Francesc, Bara, Javier, and Capdevila, Joan

Subjects

Remote sensing -- Equipment and supplies, Radiometers -- Equipment and supplies, Interferometry -- Equipment and supplies, Business, Earth sciences, Electronics and electrical industries

Abstract

Current spaceborne radiometers do not achieve the required spatial resolution demanded by the scientific community due to antenna-size technological limitations. In recent years, several space agencies have been studying aperture synthesis interferometric radiometers as a way of overcoming these limitations, which are more evident at low microwave frequencies (e.g., at L-band), where sea surface salinity and soil moisture can be monitored. Interference is an important issue in any remote sensing instrument, but it is crucial in microwave radiometers, since the signal being measured is the spontaneous thermal noise emission. Interference analyses already exist for classic radiometers. The objective of this paper is the analysis of RF interference on interferometric radiometers. The study involves the analysis of possible interference sources that may affect the performance of such systems at L-band: 1) nearby emissions from radars, non-Geo-Stationary Orbit (GSO) and Mobile Satellite Services (GSO-MSS), 2) harmonics of lower frequency emissions, and 3) possible jamming. Index Terms--Interference, interferometry, radiometry, remote sensing.

Published

2000