G. Guerova, E. Brockmann, F. Schubiger, J. Morland, C. Mätzler
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引用次数: 29
Abstract
Abstract In this paper an integrated assessment of the vertically integrated water vapor (IWV) measured by radiosonde, microwave radiometer (MWR), and GPS and modeled by the limited-area mesoscale model of MeteoSwiss is presented. The different IWV measurement techniques are evaluated through intercomparisons of GPS to radiosonde in Payerne, Switzerland, and to the MWR operated at the Institute of Applied Physics at the University of Bern in Switzerland. The validation of the IWV field of the nonhydrostatic mesoscale Alpine Model (aLMo) of MeteoSwiss is performed against 14 GPS sites from the Automated GPS Network of Switzerland (AGNES) in the period of 2001–03. The model forecast and the nudging analysis are evaluated, with special attention paid to the diurnal cycle. The results from the GPS–radiosonde intercomparison are in agreement, but with a bimodal distribution of the day-to-night basis. At 0000 UTC, the bias is negative (−0.4 kg m−2); at 1200 UTC, it is positive (0.9 kg m−2) and the variability i...
全文:html(摘要)本文综合评价了由探空仪、微波辐射计(MWR)和GPS测量并由MeteoSwiss有限区域中尺度模式模拟的垂直综合水汽(IWV)。通过将GPS与瑞士Payerne的无线电探空仪和瑞士伯尔尼大学应用物理研究所运行的MWR进行相互比较,评估了不同的IWV测量技术。利用2001 ~ 2003年瑞士气象台(MeteoSwiss)非流体静力中尺度高山模式(aLMo)在瑞士自动GPS网(AGNES)的14个GPS站点上进行了IWV场的验证。对模型预测和助推分析进行了评价,特别注意了日周期。gps -无线电探空仪相互比较的结果是一致的,但在日夜基础上呈双峰分布。在0000 UTC,偏差为负(- 0.4 kg m - 2);在1200 UTC,它是正的(0.9 kg m−2),变异性i…
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