Abstract
The hailpad, constructed from a plate of Styrofoam, is a simple instrument for recording hailfall. In addition to simply recording the hailfall, calibration of the instrument is required to obtain quantitative measurements of the hail. The calibration is a process leading to a calibration equation, a polynomial establishing a relationship between the diameter of a hailstone and the dent the hailstone is left on the surface of the hailpad. A hailpad network, consisted of 154 instruments, has established inGreece, in the context of the Greek National Hail Suppression Program operating for the protection of the agricultural cultivations from hail damage. For the calibration of the haipads of the network the well known “Energy Matching technique” has adopted and the Inverse Regression method is applied from the beginning for the obtainment of the calibration equation. In the present study along with the Inverse Regression method hitherto applied, the Classical Regression method is examined and presented and inferential statistics are also introduced in both methods in order to establish a more stringent statistical procedure for the calibration of the hailpads. After the theoretical analysis the data from a calibration experiment were analyzed, calibration models obtained using both methods of regression, hail diameters were predicted with the two models when new observations were available and the results compared to each other. The comparison of the two models' predictions showed that the results are almost the same so there is no good reason to replace the hitherto Inverse Regression method. However, it would be good to introduce the Classical Regression method alongside the Inverse. In addition, prediction bands for both methods should be introduced giving to the results the range of the confidence interval of the predictions.
Highlights
The hailpad is a simple yet effective meteorological instrument for the study of the hail falls
During the hail period of 2017, five (5) packets of Styrofoam plates have calibrated and the calibration equations obtained for each one, using the inverse regression method as usual
The calibration data of the fourth Styrofoam packet will be used in the following to derive the calibration equation and a 95% prediction band running both methods
Summary
The hailpad is a simple yet effective meteorological instrument for the study of the hail falls. The instrument introduced in 1959 [1] and has since been used by many researchers, for the study of the characteristics and climatology of hail and for the evaluation of hail suppression programs [2,3,4,5,6]. The hailpad was initially introduced in the Greek National Hail Suppression Program – GNHSP - during the period 1984 – 1988 when a hailpad network was established in the context of the evaluation experiment of the program based on a crossover design. The variation of the instrument used in the GNHSP, consists of a pad of Styrofoam mounted horizontally in a case at the tope of a pole, about 1.5m above the ground, so that the upper surface exposed to the hail has dimensions of 27cmX27cm. The Styrofoam variation with the smooth skin is used, which is painted with a water mixture of white wall painting emulsion for protection against the sun radiation
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