A Modelling Approach For Optimizing Flight PatternsIn Airborne Meteorological Measurements
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- 作者:Vihma ; Timo ; Kottmeier ; Christoph
- 关键词:Research aircraft ; Flight pattern ; Mesoscale model ; Heat flux ; Sea ; ice
- 刊名:Boundary-Layer Meteorology
- 出版时间:2000
- 出版年:2000
- 期刊代码:15_00068314
- 类别:mat
- 卷:95
- 期:2
- 页码:211-230
- 数据来源:sp
摘要
A method is presented for selecting the optimal flight patterns for airbornemeteorological measurements in various flow situations. The method is basedon systematic utilisation of mesoscale model fields. Flow overan Arctic sea-ice boundary zone is modelled, and it is assumed that the mesoscale model fields represent the true state of the atmosphere, and that each possible flight pattern yields a different sample of the true fields. A plan for the basic structure of the flight pattern is assumed, and then the unexplained variance, i.e., the difference between the true variance and the sample variance, of a quantity of interest is calculated for a variety of possible flight patterns. Different target quantities are considered, such as wind speed, air temperature, and the turbulent fluxesof momentum and sensible heat. The optimal flight pattern is defined byminimisation of the unexplained variance, and often depends on the quantitywe are interested in. For sawtooth patterns, the optimal flight pattern was sensitive to the maximum ascent angle of the aircraft. In flight patterns designed for turbulence measurements, the optimal pattern was different for the unexplained variance of the turbulent fluxes and for the unexplained total heat content of the convective layer.