基于MSG数据的中尺度对流系统监测-个案研究

IF 0.7 Q4 ASTRONOMY & ASTROPHYSICS Artificial Satellites-Journal of Planetary Geodesy Pub Date : 2015-06-01 DOI:10.1515/arsa-2015-0007
Karolina Szafranek, B. Jakubiak, Ryszard Lech, M. Tomczuk
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引用次数: 0

摘要

本文所述的分析是在PROZA(基于大气条件的业务决策,http://projekt-proza.pl/)项目框架内进行的,该项目由欧盟通过欧洲区域发展基金共同资助。其任务之一是开发一个业务预报系统,该系统将通过减少考虑天气条件的经济决策风险来支持林业或水果农业等不同的经济部门。本文的主要目的是描述基于第二代气象卫星资料的中尺度对流系统的跟踪方法。到目前为止,已经进行了几次测试。2010年5月为中欧地区收集的选定光谱通道的Meteosat卫星图像被用于探测和跟踪波兰被认为是mcs的云系统。这里采用ISIS跟踪方法。首先使用温度阈值定义云对象,然后使用连续图像上的重叠位置原理跟踪选定的单元格。使用温度阈值来定义电池的主要好处是它的效率。在跟踪过程中,算法将t时刻图像的单元格与下面t+dt时刻对应于同一云系统的图像单元格链接起来。选定的案例呈现了在波兰境内出现的现象。它们与气象雷达数据和UKMO UM(英国气象局统一模型)预报进行了比较。本文在近实时预测系统开发的背景下对典型MCSs进行了分析,并证明了所开发的工具可以帮助MCSs监测。
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Mesoscale Convective Systems Monitoring on the Basis of MSG Data – Case Studies
Abstract Analysis described in the paper were made in the frame of the PROZA (Operational decisionmaking based on atmospheric conditions, http://projekt-proza.pl/) project co-financed by the European Union through the European Regional Development Fund. One of its tasks was to develop an operational forecast system, which is going to support different economies branches like forestry or fruit farming by reducing the risk of economic decisions with taking into consideration weather conditions. The main purpose of the paper is to describe the method of the MCSs (Mesoscale Convective Systems) tracking on the basis of the MSG (Meteosat Second Generation) data. Until now several tests were performed. The Meteosat satellite images in selected spectral channels collected for Central Europe Region for May 2010 were used to detect and track cloud systems recognized as MCSs in Poland. The ISIS tracking method was applied here. First the cloud objects are defined using the temperature threshold and next the selected cells are tracked using principle of overlapping position on consecutive images. The main benefit of using a temperature threshold to define cells is its efficiency. During the tracking process the algorithm links the cells of the image at time t to the one of the following image at time t+dt that correspond to the same cloud system. Selected cases present phenomena, which appeared at the territory of Poland. They were compared to the weather radar data and UKMO UM (United Kingdom MetOffice Unified Model) forecasts. The paper presents analysis of exemplary MCSs in the context of near realtime prediction system development and proves that developed tool can be helpful in MCSs monitoring.
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