Title :
Detection and estimation of reflectivity gradients in the radar resolution volume using multiparameter radar measurements
Author :
Scarchilli, G. ; Gorgucci, E. ; Chandrasekar, V.
Author_Institution :
Ist. di Fisica dell´´Atmos., CNR, Rome, Italy
fDate :
3/1/1999 12:00:00 AM
Abstract :
Multiparameter radar measurements of rainfall, namely, reflectivity factor ZH, differential reflectivity ZDR , and specific differential phase KDP lie in a constrained three-dimensional (3D) space and therefore measurement of Z H, ZDR, or, KDP should be consistent with the other two. This self-consistency relationship between ZH , ZDR, and KDP is valid when the radar resolution volume is homogeneous. When there are reflectivity gradients within the radar resolution cell, the self-consistency relation is perturbed. This perturbation can be utilized to detect the presence of gradients in the radar resolution volume. This paper presents a technique to detect and estimate reflectivity gradients in the resolution cell. The technique is evaluated using theoretical analysis as well as experimental data collected by the NCAR CP-2 radar. It is demonstrated that the presence of reflectivity gradients larger than a few decibels can be detected using the algorithm developed in this paper
Keywords :
atmospheric techniques; meteorological radar; radar polarimetry; rain; remote sensing by radar; atmosphere; differential reflectivity; measurement technique; meteorological radar; multiparameter radar; precipitation; radar remote sensing; radar resolution; radar resolution volume; rain; rainfall rate; reflectivity factor; reflectivity gradient estimation; resolution cell; self-consistency relationship; specific differential phase; Phase measurement; Polarization; Radar antennas; Radar detection; Radar measurements; Radar theory; Rain; Reflectivity; Shape; Spaceborne radar;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
