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Configuration and Evaluation of a Dual-Doppler 3-D Wind Field System.

机译：双多普勒三维风场系统的配置与评估。

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Current LSP, GSDO, and SLS space vehicle operations are halted when wind speeds from specific directions exceed defined thresholds and when lightning is a threat. Strong winds and lightning are difficult parameters for the 45th Weather Squadron (45 WS) to forecast, yet are important in the protection of customer vehicle operations and the personnel that conduct them. A display of the low-level horizontal wind field to reveal areas of high winds or convergence would be a valuable tool for forecasters in assessing the timing of high winds, or convection initiation and subsequent lightning occurrence. This is especially important for areas where no weather observation platforms exist. Developing a dual-Doppler radar capability would provide such a display to assist forecasters in predicting high winds and convection initiation. The wind fields can also be used to initialize a local mesoscale numerical weather prediction model to help improve the model forecast winds, convection initiation, and other phenomena. The 45 WS and NWS MLB tasked the Applied Meteorology Unit (AMU) to develop a dual- Doppler wind field display using data from the 45th Space Wing radar, known as the Weather Surveillance Radar (WSR), NWS MLB Weather Surveillance Radar 1988 Doppler (KMLB), and the Orlando International Airport Terminal Doppler Weather Radar (KMCO). They also stipulated that the software used should be freely available. The AMU evaluated two software packages and, with concurrence from NWS MLB and the 45 WS, chose the Warning Decision Support System-Integrated Information (WDSS-II). The AMU collected data from two significant weather cases: a tornadic event on 14 April 2013 and a severe wind and hail event on 12 February 2014. For the 14 April case, the data were from WSR and KMLB. For the 12 February case, the data were from KMCO and KMLB. The AMU installed WDSS-II on a Linux PC, then processed and quality controlled the radar data for display and analysis using WDSS-II tools. Because of issues with de-aliasing the WSR velocity field, the AMU did not use data from this radar in this study and only analyzed the 12 February case. Merging the data to create the dual-Doppler analysis involved several steps. The AMU used instructions from the WDSS-II website and discussion forum to determine the correct tools to use for the analysis, and was successful in creating a merged reflectivity field, which was critical to the success of creating a merged velocity field. However, the AMU was unable to create a merged velocity field. The AMU researched the WDSS-II forum for discussions on similar issues, asked questions on the forum, and tested different options and values in the merger tool with no success. Developing a dual-Doppler wind field was the main goal of this task, but that was not accomplished. It could be an issue of not using the correct options or the correct value for the options used, or there could be issues with the radar data. There is a follow-on AMU task to install the operational version of WDSS-II in the NWS MLB office. This will provide more opportunities to try different options and input values in order to create a merged wind field from KMCO and KMLB.

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作者
Crawford, W. C.;
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年度 2014
页码 1-53
总页数 53
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Doppler radar; Wind direction; Wind (meteorology); Meteorological radar; Surveillance radar; Velocity distribution; Wind velocity; Weather forecasting; Multispectral radar; Numerical weather forecasting; Mesometeorology; Data processing equipment; User manuals (computer programs); Environment simulators; Ground operational support system; Lightning; Convection; Real time operation; Convergence; Mesoscale phenomena; Computer programs; Decision support systems; Three dimensional models; Prediction analysis techniques; Algorithms; Data processing;

机译：多普勒雷达;风向;风（气象学）;气象雷达;监视雷达;速度分布;风速;天气预报;多光谱雷达;数值天气预报;中气象学;数据处理设备;用户手册（计算机程序）;环境模拟器;地面运行支持系统;闪电;对流;实时操作;收敛;中尺度现象;计算机程序;决策支持系统;三维模型;预测分析技术;算法;数据处理;

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Configuration and Evaluation of a Dual-Doppler 3-D Wind Field System.

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