Value weather forecast and artificial intelligence (AI) coupling predication method for wind speed extremum of costal typhoon
A technology of numerical weather forecasting and prediction method, which is applied in weather condition prediction, fluid velocity measurement, velocity/acceleration/impact measurement, etc. It can solve the problem of inability to effectively predict future extreme wind speed, and overcome the limitation of time and space accuracy. , the effect of reducing physical and numerical errors, improving accuracy and efficiency
Active Publication Date: 2018-12-11
ZHEJIANG UNIV
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However, the current wind speed prediction is often corrected for the average wind speed output by the numerical weather forecast. Therefore, it is impossible to effectively predict the occurrence of extreme wind speed in the future. For example, CA 106971032A discloses a combination of non-parametric kernel density estimation and numerical weather forecast The wind speed prediction method, combined with the Chebyshev neural network model to correct the predicted wind speed of the numerical weather forecast, can only make corresponding predictions for the future average wind speed
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[0035] The present invention will be described in further detail below with reference to the accompanying drawings and specific embodiments.
[0036] The present invention provides a coastal typhoon extreme wind speed forecasting method based on numerical weather forecasting and artificial intelligence, the process of which is as follows figure 1 As shown, an example is given below:
[0037] For a coastal area in Zhoushan, taking the extreme wind speed prediction under the influence of Super Typhoon No. 18 "Tali" in 2017 as an example, the specific implementation steps are as follows:
[0038] (1) A wind speed and direction instrument was installed in advance in a coastal area of Zhoushan to record meteorological data such as wind speed and direction for 120 hours from September 11 to September 15. Taking 10min as the basic time interval, calculate the average wind speed RMS wind speed σ meas , wind angle and crest factor p, see figure 2 . Statistical analysis of the ...
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The invention discloses a value weather forecast and AI coupling predication method for wind speed extremum of a costal typhoon. According to the prediction method, a value weather forecast based model is established, a deep neural network is trained according to practically measured data as well as the value weather forecast based model to obtain a deep neural network model after training, a meso-scale meteorological value mode simulation method is used to carry out dowscaling calculation again, wind speed and friction wind speed in further 24h are predicted, and an optimal peak factor is combined to obtain the wind speed extremum in the further 24h. Analysis data in the meso-scale value mode and subjective geographical information serve as input, the complex physical process of taking regard of is taken into integrated consideration, the average wind speed , the root mean square wind speed and the like of a specific target position with the practical physical meanings are predicted in a simulated way by solving an atmospheric movement equation, and the disadvantage that statistical prediction and AR predication methods rely on mathematical statistical methods completely is overcome.
Description
technical field [0001] The invention belongs to the field of meteorological forecasting, and in particular relates to a numerical weather forecasting-artificial intelligence coupled forecasting method for coastal typhoon extreme wind speed. Background technique [0002] In coastal typhoon-prone areas, wind disasters are an important factor that threatens the safety of buildings. In order to reduce the losses caused by wind disasters, it is of great significance to predict the wind speed and prepare in advance before the arrival of strong winds. However, the wind speed is often very random, especially in the case of a typhoon, the wind speed and direction of the typhoon are uncertain, and the instability of the wind speed is particularly significant, which brings great challenges to the advanced prediction of the wind speed and its extreme value . [0003] At present, wind speed prediction methods can be roughly divided into the following four categories: (1) numerical weath...
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IPC IPC(8): G01W1/10G01P5/00
CPCG01P5/00G01W1/10
Inventor 黄铭枫徐卿王义凡楼文娟吴列阳
Owner ZHEJIANG UNIV
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