Abstract
Calibration/Validation (Cal/Val) of satellite altimeters is fundamental for monitoring onboard sensor performance and ensuring long-term data quality. As altimeter technology has been evolving rapidly from profile to wide swath and interferometric altimetry, different requirements regarding Cal/Val have emerged. Most current Cal/Val technology has been developed for conventional profile altimeters, whereby satellite observations are compared against measurements at one point along orbit lines. However, the application of this type of Cal/Val technique to swath interferometric altimeters with two-dimensional measurements is difficult. Here, we propose a new strategy for the evaluation of interferometric altimeters based on comparison of wave-induced sea surface elevation (WSSE) spectra from one- and two-dimensional measurements. This method assumes that the WSSE variance of an equilibrium wave field is uniform and can be measured equivalently in the space or time domains. The method was first tested with simulated data and then used to evaluate the performance of an airborne interferometric radar altimeter system (AIRAS) using Global Navigation Satellite System (GNSS) buoy measurements. The differences between the WSSE variances from the AIRAS and two GNSS buoys were below 8 cm2, corresponding to a standard deviation of 2.8 cm, which could serve as a reference for the WSSE error over the scale range of waves. The correlation coefficient between the AIRAS and GNSS buoys was approximately 0.90, indicating that the error was small relative to the WSSE signals. In addition, the sea surface height (SSH) difference measured by the AIRAS was compared with that derived from the GNSS buoys at two sites. The results indicated that the error of the SSH difference was 3 cm. This approach represents a possible technique for the Cal/Val of future spaceborne/airborne interferometric altimeters; however, additional experiments and applications are needed to verify the feasibility of this method.
Highlights
Monitoring of altimetry products through calibration and validation (Cal/Val) is essential for detecting any biases and trends in satellite observations and for ensuring long-term consistency and continuity of measurements obtained from different missions [1]
We report on a Cal/Val experiment of an airborne interferometric radar altimeter system (AIRAS) designed as an engineering test prototype for the future Guanlan science mission
We propose a new method for evaluating interferometric altimeters that involves comparing the spectra of wave-induced sea surface elevation (WSSE) from the Global Navigation Satellite System (GNSS) buoy and AIRAS measurements
Summary
Monitoring of altimetry products through calibration and validation (Cal/Val) is essential for detecting any biases and trends in satellite observations and for ensuring long-term consistency and continuity of measurements obtained from different missions [1]. The main Cal/Val methods applied at the above sites are based on comparison of altimetry-derived sea surface height (SSH) with ground-based measurements determined using in situ tide gauges, precise positioning, and/or Global Navigation Satellite System (GNSS) buoys [24]. These techniques have worked well in along-track calibration of conventional nadir altimeters for more than 25 years [5]
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