This study applied coefficient of efficiency from leave-one-out (LOO) interpolation to evaluate the pros and cons of using three types of Kriging methods, regression Kriging (RK), simple Kriging (SK), and universal Kriging (UK), with different statistic structure models and parameter identification methods. According to the results of analysis, objective evaluation method has been proposed to select the appropriate methods in estimate procedure. This study compared four statistic structure parameter identification methods, which include first order and second order: 1.Applying RK procedure, which first estimates trend then follows the traditional procedure to establish variogram model with regression residual, compute statistical model parameters in second order; 2.Applying intrinsic hypothesis concept to estimate the parameter of variogram model. This method does not remove the temperature trend in the raw variogram, but identifies variogram parameters with raw variogram which is controlled by spatial trends squared difference term. Spatial trends squared difference term is the sum of the product of difference of latitude and longitude of any two stations and the first order trend function parameters; 3.Applying maximum-likelihood estimation (MLE) to identify variogram parameters; 4.Applying cross validation methods, uses assessment indicator, which is computed with Kriging error variance, as objective function. This method determines the statistical structure parameters with optimizing objective function by perturbing variogram parameters. Among these four parameter identification methods, only method #2 can only apply on UK. The remaining three methods can both apply on UK and the procedure which first removes trend, uses residual from SK, and ultimate add trend on. At last, this study used the ratio of Kriging error variance and Kriging expected error variance to judge the quality of temperature estimation. The five years (2008 to 2012) temperature hourly-data has been used to test in this study. This study only used the data from the station with high percentage of valid observations, and the data has been converted to hourly data, average daily data, and monthly average data to test. The test result shows the first order statistical model is a linear model with longitude, latitude, and height variables. After testing, exponential model and spherical model performed the most stable and best among four kinds of second order statistical models. This study used hourly data from 2003 to 2009 for validation. The validation results show that both MLE and iteration for optimal cross validation (IOCV) method performs better than traditional parameter identification methods. From a theoretical point of view, there are concerns about IOCV methods. Since there is only a little difference the performance between IOCV and MLE methods, the study recommends using MLE as parameter identification method for Kriging method. The results of test of estimation procedure show that applied MLE method in identified procedure produces better and more stable CoE compares with the other methods above-mentioned. In addition, among the procedure, which identify parameters by MLE, SK method produced CoE with better performance than UK. This study provides some recommendations of applying Kriging. First, exponential model and spherical model are preferences of second order model. Second, it is preferred to apply MLE method to identify parameters. Third, it is recommended to use SK method for interpolation.