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Atmospheric temperature and humidity profile inversion method based on a ground multichannel microwave radiometer

A microwave radiometer, multi-channel technology, applied in the field of meteorological detection, can solve the problems of regression analysis limitation, ignoring the internal relationship of the atmospheric temperature field, and unmeasurable factors affecting the diversity of factors, so as to achieve simple model, improve inversion accuracy, Easy-to-understand effect

Inactive Publication Date: 2018-09-07
HARBIN ENG UNIV
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Problems solved by technology

However, sometimes in regression analysis, which factor to choose and what expression to use for the factor is just a guess, which affects the diversity of factors and the unmeasurability of some factors, making regression analysis in some cases restricted
The physical inversion method is to directly solve the radiative transfer equation based on the brightness temperature measurement value of the microwave radiometer. method (Chahine, 1972), etc., but these iterative algorithms ignore the internal relationship of the atmospheric temperature field, and due to multiple iterations, they will pay a large cost in computing time

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  • Atmospheric temperature and humidity profile inversion method based on a ground multichannel microwave radiometer
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  • Atmospheric temperature and humidity profile inversion method based on a ground multichannel microwave radiometer

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[0025] The present invention will be described in detail below in conjunction with the accompanying drawings.

[0026] The invention proposes an atmospheric temperature and humidity profile inversion method based on a ground-based multi-channel microwave radiometer. Based on the ground-based 22-channel microwave radiometer, a method for inverting the atmospheric temperature and humidity profile was developed, and two different weather conditions (clear and cloudless, cloudy and rainless) were considered at the same time, and their respective neural networks were trained for different weather conditions. After testing and analysis, the neural network structure, training sample data, and training methods are reasonably arranged. The verification results also show that the network can well meet the actual needs of inverting temperature and humidity profiles.

[0027] The present invention provides an atmospheric temperature and humidity profile inversion method based on a ground-...

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Abstract

The invention discloses an atmospheric temperature and humidity profile inversion method based on a ground multichannel microwave radiometer, and belongs to the technical field of meteorological detection. The method uses a 22-channel microwave radiometer and comprises steps of first obtaining microwave radiometer data; calculating the simulated brightness temperature data corresponding to the historical sounding profile data by using a radiation transmission model, and accordingly training an established BP neural network for inverting the atmospheric temperature and humidity profile; and inverting the atmospheric temperature and humidity profile by using the trained BP neural network. The BP neural network provided by the invention is simple in model, easy to understand, and capable of inverting the atmospheric temperature, the relative humidity and the vapor density profile at sufficient precision, and is simpler and more universal than other inversion algorithms; The method classifies two different weather conditions, and trains respective networks for different weathers, thereby improving inversion accuracy and meeting the needs of practical problems.

Description

technical field [0001] The invention belongs to the technical field of meteorological detection, and in particular relates to an atmospheric temperature and humidity profile inversion method based on a ground-based multi-channel microwave radiometer. Background technique [0002] Atmospheric temperature and humidity profile, that is, the relationship curve between atmospheric temperature, relative humidity, water vapor density (absolute humidity) and other information and altitude, is an important parameter of the atmospheric environment. Microwave radiometer has the advantages of portability, unattended continuous work, high resolution, reliable calibration method, simple operation, etc., and is gradually becoming an important instrument for remote sensing of atmospheric information. The multi-channel microwave radiometer can measure the radiation intensity of the atmosphere at each channel frequency, obtain the brightness temperature value of each channel, and then use its...

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Application Information

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IPC IPC(8): G01S13/95G06N3/04G06N3/08
CPCG01S13/958G06N3/04G06N3/084Y02A90/10
Inventor 赵玉新李泽宇刘厂周迪闫化龙吴鹏
Owner HARBIN ENG UNIV
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