An Integrated Approach to Weather Radar Calibration and Monitoring Using Ground Clutter and Satellite Comparisons
[摘要] The stability and accuracy of weather radar reflectivity calibration are imperative for quantitative applications, such as rainfall estimation, severe weather monitoring and nowcasting, and assimilation in numerical weather prediction models. Various radar calibration and monitoring techniques have been developed, but only recently have integrated approaches been proposed, that is, using different calibration techniques in combination. In this paper the following three techniques are used: 1) ground clutter monitoring, 2) comparisons with spaceborne radars, and 3) the self-consistency of polarimetric variables. These techniques are applied to a C-band polarimetric radar (CPOL) located in the Australiantropics since 1998. The ground clutter monitoring technique is applied to each radar volumetric scan and provides a means to reliably detect changes in calibration, relative to a baseline. It is remarkably stable to within a standard deviation of 0.1 dB (decibels). To obtain an absolute calibration value, CPOL observations are compared to spaceborne radars on board TRMM (Tropical Rainfall Measuring Mission) and GPM (Global Precipitation Measurement) using a volume-matching technique. Using an iterative procedure and stable calibration periods identified by the ground echoes technique, we improve the accuracy of this technique to about 1 dB. Finally, we review the self-consistency technique and constrain its assumptions using results from the hybrid TRMM-GPM and ground echo technique. Small changes in the self-consistency parameterization can lead to 5 dB of variation in the reflectivity calibration. We find that the drop-shape model of Brandes et al. with a standard deviation of the canting angle of 12 degrees best matches our dataset.
[发布日期] 2019-01-04 [发布机构]
[效力级别] [学科分类] 大气科学
[关键词] SYSTEMS INTEGRATION;METEOROLOGICAL RADAR;CALIBRATING;METEOROLOGICAL SATELLITES;GROUND EFFECT (COMMUNICATIONS);RADAR ECHOES;CLUTTER;CONSISTENCY;REFLECTANCE;TRMM SATELLITE;GPM SATELLITE CONSTELLATION;RAIN;DROP SIZE;PRECIPITATION MEASUREMENT;MATHEMATICAL MODELS;POLARIMETRY;TROPICAL REGIONS;AUSTRALIA [时效性]