Novel geospatial interpolation analytics for general meteorological measurements

Bingsheng Wang, Jinjun Xiong
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引用次数: 2

Abstract

This paper addresses geospatial interpolation for meteorological measurements in which we estimate the values of climatic metrics at unsampled sites with existing observations. Providing climatological and meteorological conditions covering a large region is potentially useful in many applications, such as smart grid. However, existing research works on interpolation either cause a large number of complex calculations or are lack of high accuracy. We propose a Bayesian compressed sensing based non-parametric statistical model to efficiently perform the spatial interpolation task. Student-t priors are employed to model the sparsity of unknown signals' coefficients, and the Approximated Variational Inference (AVI) method is provided for effective and fast learning. The presented model has been deployed at IBM, targeting for aiding the intelligent management of smart grid. The evaluations on two real world datasets demonstrate that our algorithm achieves state-of-the-art performance in both effectiveness and efficiency.
用于一般气象测量的新型地理空间插值分析
本文讨论了气象测量的地理空间插值,其中我们用现有观测估计未采样地点的气候指标值。提供覆盖大区域的气候和气象条件在许多应用中都有潜在的用处,比如智能电网。然而,现有的插值研究要么计算量大、计算复杂,要么精度不高。我们提出了一种基于贝叶斯压缩感知的非参数统计模型来有效地执行空间插值任务。采用Student-t先验对未知信号系数的稀疏度进行建模,并采用近似变分推理(AVI)方法进行有效快速的学习。所提出的模型已在IBM部署,旨在帮助智能电网的智能管理。对两个真实世界数据集的评估表明,我们的算法在有效性和效率方面都达到了最先进的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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