TY - JOUR JF - khu-mmr JO - mmr VL - 6 IS - 3 PY - 2020 Y1 - 2020/11/01 TI - Three-Parameter Kappa Distribution and its Fitting to the Whole Monthly Rainfall Data of Abali Station in Tehran Province TT - توزیع کاپا سه پارامتری و برازش آن به داده‌های مجموع بارش ماهانه ایستگاه آبعلی استان تهران N2 - Introduction The kappa distribution was first introduced by Mielke (1973) and Mielke and Johnson (1973) for describing and analyzing precipitation data. This distribution is positively skewed and is widely applied when studying precipitation, wind speed and the stream flow data in hydrology. The kappa distribution has some advantages over gamma and log-normal distributions in fitting historical rainfall. Data It is because, unlike the latter two distributions, it has closed forms for the cumulative distribution function and quantile function. Due to this important feature, the kappa distribution attracts the attention of several researchers. Park et al. (2009) introduced the three-parameter kappa distribution and provided a description of the mathematical properties of the distribution and estimated the parameters by three methods. Also, they illustrated its applicability for rainfall data from Seoul, Korea. In this paper, we study the distribution and the estimation methods for the parameters considered by Park et al. (2009), and propose a new estimation method. Then, we will compare these estimation methods using a Monte Calro simulation study and a real dataset. Material and methods In this scheme, first we consider the three-parameter kappa distribution and study some of its properties and then estimate the parameters of the distribution by four methods. These methods are method of moment (MM), L-moments (LM), maximum likelihood (ML) and maximum product of spacing method (MPS). Using a Monte Carlo simulation study and a real data set, performance of these methods are compared. Results and discussion Comparing the performance of the proposed estimation methods in terms of bias and root of mean squares error (rmse), it can be concluded that the MPS method has a better performance due to its lower bias and rmse. The Kolmogorov-Smirnov test is applied for goodness-of-fit test in the three-parameter kappa distribution to the whole monthly rainfall data of Abali station in Tehran province. The results demonstrate that the MPSE method leads to better results than other mentioned methods. Conclusion The following conclusions were drawn from this research. The Monte Carlo simulation shows that the maximum product spacing method, which is proposed in this paper, is the best method for estimating the parameters of the three-parameter kappa distribution. The statistics and p-value of the Kolmogorov–Smirnov test show that the three-kappa distribution with the MPS method of estimation has better fit than the other methods. SP - 405 EP - 416 AU - Sharafi, Maryam AU - Tavangar, Farideh AU - Enami, Shohre AD - Shiraz University KW - Three-parameter kappa distribution KW - Maximum likelihood estimator KW - L-Moments estimator KW - Maximum product of spacings estimator. UR - http://mmr.khu.ac.ir/article-1-2846-en.html DO - 10.52547/mmr.6.3.405 ER -