Impact of horizontal and vertical localization scales on microwave sounder SAPHIR radiance assimilation

SPIE Asia-Pacific Remote Sensing Pub Date : 2016-05-05 DOI:10.1117/12.2223476

C. Krishnamoorthy, C. Balaji

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引用次数: 3

Abstract

In the present study, the effect of horizontal and vertical localization scales on the assimilation of direct SAPHIR radiances is studied. An Artificial Neural Network (ANN) has been used as a surrogate for the forward radiative calculations. The training input dataset for ANN consists of vertical layers of atmospheric pressure, temperature, relative humidity and other hydrometeor profiles with 6 channel Brightness Temperatures (BTs) as output. The best neural network architecture has been arrived at, by a neuron independence study. Since vertical localization of radiance data requires weighting functions, a ANN has been trained for this purpose. The radiances were ingested into the NWP using the Ensemble Kalman Filter (EnKF) technique. The horizontal localization has been taken care of, by using a Gaussian localization function centered around the observed coordinates. Similarly, the vertical localization is accomplished by assuming a function which depends on the weighting function of the channel to be assimilated. The effect of both horizontal and vertical localizations has been studied in terms of ensemble spread in the precipitation. Aditionally, improvements in 24 hr forecast from assimilation are also reported.

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水平和垂直定位尺度对微波测深仪sapir辐射同化的影响

本文研究了水平和垂直定位尺度对直接SAPHIR辐射同化的影响。采用人工神经网络(ANN)代替正演辐射计算。人工神经网络的训练输入数据集由大气压力、温度、相对湿度和其他水流星剖面的垂直层组成，输出6通道亮度温度(BTs)。通过对神经元独立性的研究，我们得到了最好的神经网络结构。由于辐射数据的垂直定位需要加权函数，因此为此目的训练了一个人工神经网络。使用集合卡尔曼滤波(EnKF)技术将辐射吸收到NWP中。通过使用以观测坐标为中心的高斯定位函数，已经处理了水平定位。类似地，垂直定位是通过假设一个函数来完成的，该函数依赖于要同化的信道的加权函数。研究了水平局域化和垂直局域化对降水整体扩散的影响。此外，同化对24小时预报的改善也有报道。

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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SPIE Asia-Pacific Remote Sensing

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