| 对偶Kriging插值方法在气象资料分析中的应用 |
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| 引用本文: | 郑永骏,金之雁.对偶Kriging插值方法在气象资料分析中的应用[J].应用气象学报,2008,19(2):201-208. |
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| 作者姓名: | 郑永骏 金之雁 |
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| 作者单位: | 中国气象科学研究院, 北京 100081 |
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| 摘 要: | 非对偶Kriging方法是一种局部插值, 因此对每个插值点都要重新求解Kriging线性系统从而非常耗时。该文介绍了通过等价变换将泛Kriging方法转换成对偶Kriging方法, 对偶Kriging方法是一种全局插值, 其Kriging线性系统不依赖插值点, 因此仅需一次求解Kriging线性系统即可计算所有插值点的值, 从而极大提高了计算效率。数值试验的实际计算表明, 对偶Kriging方法不仅计算精度完全与泛Kriging方法一致, 整体效果相当于或优于GrADS绘图软件的Cressman方法; 而且对偶Kriging方法的计算效率远高于泛Kriging方法。最后, 该文通过统计与拟合得到了降水的4类半变异函数模型的表达式, 并通过敏感试验研究4类半变异函数模型对降水分析精度的影响。
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| 关 键 词: | 对偶Kriging Kriging线性系统 等价变换 计算效率 半变异函数 |
| 收稿时间: | 2007-01-26 |
| 修稿时间: | 2007年1月26日 |
The Application of Dual Kriging Interpolating Method to Meteorological Data Analysis |
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| Zheng Yongjun,Jin Zhiyan.The Application of Dual Kriging Interpolating Method to Meteorological Data Analysis[J].Quarterly Journal of Applied Meteorology,2008,19(2):201-208. |
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| Authors: | Zheng Yongjun Jin Zhiyan |
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| Affiliation: | Chinese Academy of Meteorological Sciences, Beijing 100081 |
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| Abstract: | Kriging method is an interpolating method based on the spatial statistical correlation of the samples. The core idea implicated in Kriging method is that each sample is assigned with different weight according to the spatial correlation among the sample points, and the estimated error is minimized. So, it can be summarized to be the best linear unbiased estimator of a random function. Non dual Kriging method is a local interpolator for the interpolation at each node and the solution of a new Kriging linear system is required by which the location of interpolating node is explicitly depended on. Therefore, non dual Kriging method is quite time consuming for the solution of a new Kriging linear system for every interpolating point. By equivalent transform, the Universal Kriging method can be transformed to Dual Kriging method, which is a global interpolator for its Kriging linear system is independent of the interpolating point. Therefore, the Kriging linear system is solved by the Dual Kriging method only once to interpolate all points, so the computational efficiency is significantly improved and is of great value in meteorology and oceanography where large data sets are to be interpolated. Furthermore, the result of the numerical experiment shows that Dual Kriging method is not only equivalent to Universal Kriging method in accuracy and comparable to or superior to the Cressman method built in GrADS, but also far superior to Universal Kriging method in computational efficiency. In order to improve the accuracy, efficiency and flexibility of Dual Kriging method, several unique techniques are adopted in the implementation of the computational scheme: the solution of Dual Kriging linear system using partial pivoting LU decomposition and iterative improvement, the fitting of the trend by SVD linear fitting m
ethod, Levenberg Marquatdt iterative method for the non linear parameters fitting of the semivariance model, and the flexible parameter configuration by the FORTRAN 90 modular interface. Finally, four kinds of semivariance expressions are obtained by fitting the statistical sample semivariance derived from the statistics of summer precipitation in the Eastern and Southern China, and the sensitivity of these four kinds of semivariance models to the accuracy of precipitation interpolation is analyzed using the Dual Kriging method. It is found that exponential semivariance model is resulted in the best analysis, spherical semivarance model is better, Gaussian and linear semivariance is the worst. It is reasonable since the exponential semivariance model is the smoothest and its range is the longest, then the interpolation is made more accurate by the smooth weight contributions from more samples around the interpolating point. Therefore, the longer the range is, the more smooth the semivariance varies, the more accurately the precipitation within the isotropic range is interpolated by the Dual Kriging method. In summary, the Dual Kriging method is superior to non dual Kriging method and Cressman method, and as an efficient and accurate best linear unbiased interpolator, more applications in meteorology and oceanography will be gained. |
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| Keywords: | Dual Kriging Kriging linear system equivalent transform computational efficiency semivariance |
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