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A method for estimating soil moisture from fy-3c passive microwave data

A passive microwave data, FY-3C technology, applied in the field of quantitative remote sensing, can solve the problems of high cost of soil moisture data, poor spatial representation, and large errors, and achieve the effect of improving forecast accuracy and reliable data support.

Active Publication Date: 2018-05-25
INST OF AGRI RESOURCES & REGIONAL PLANNING CHINESE ACADEMY OF AGRI SCI +1
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Problems solved by technology

Traditional soil moisture observation methods can only obtain soil moisture data at limited observation points, and the observation results can only reflect the soil moisture conditions in the surrounding areas of the observation points, so the spatial representation is poor, and the long-term soil moisture data acquired by traditional methods are limited. higher cost
Therefore, it cannot meet the current needs of agriculture, ecology, environment, etc.
[0003] The main disadvantages of existing soil moisture estimation methods based on microwave radiation transfer theory are: the algorithm is relatively complex, and it is difficult to obtain the surface state parameters that need to be directly input (such as rough surface emissivity and vegetation optical thickness). In the calculation process, more other surface parameters (such as vegetation water content) are needed, and the error is large, which leads to the great limitation of these soil moisture estimation methods in practical application.

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  • A method for estimating soil moisture from fy-3c passive microwave data
  • A method for estimating soil moisture from fy-3c passive microwave data

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Embodiment Construction

[0043] The present invention will be further described below:

[0044]The present invention comprises the following steps:

[0045] Step 1: Acquisition and preprocessing of the land surface temperature L2 product data of the FY-3C satellite MWRI sensor. The data preprocessing includes the following steps:

[0046] (1) Extract the brightness temperature data of 8 channels (10.7GHz(H V), 18.7GHz(H V), 23.8GHz(H), 36.5GHz(V), 89.0GHz(H V)) (H and V represent horizontal polarity respectively polarization and vertical polarization), in which channel 10.7GHz (H V) is used for soil moisture estimation, channel 36.5GHz (V) is used to calculate the surface temperature used in soil moisture estimation, and other channel data are used for masking in step 2 Membrane invalid pixel;

[0047] (2) Convert the DN value to the brightness temperature on the star according to the following formula;

[0048] Formula 1: Tb=gain×DN+offset

[0049] In the formula, Tb is the brightness temperature...

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Abstract

The invention discloses a method for estimating soil humidity based on FY-3C passive microwave data. The method makes full use of the multi-polarization characteristic of passive microwave characteristic brightness temperature data, the number of equations is increased, meanwhile comprehensive consideration of the influence of vegetation optical thickness and surface roughness on the brightness temperature on stars is made, the number of unknowns is decreased, the existing problem that the emissivity of a roughened surface and the vegetation optical thickness are needed to be known to estimate the soil humidity in the prior art is solved, and soil humidity estimation based on the brightness temperature data on the FY-3C satellite passive microwave stars is achieved.

Description

technical field [0001] The invention relates to a quantitative remote sensing technology, in particular to a method for estimating soil moisture from FY-3C passive microwave data. Background technique [0002] The water on the earth is composed of ocean water, terrestrial water and atmospheric water, and each component of water plays an important role in global environmental changes. Among them, although soil moisture only accounts for 0.005% of the total water volume of the earth, it has a very important influence on the interaction between the hydrosphere, biosphere and atmosphere, and is an important part of the global water cycle. Soil moisture is a key parameter that reflects the state of soil moisture. Understanding and obtaining large-scale, long-term soil moisture distribution and changes is very important for studying and solving problems faced by global change, agriculture, ecology, hydrology, and the environment. Significance. Traditional soil moisture observati...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01N22/04
CPCG01N22/04
Inventor 韩晓静唐荣林段四波唐伯惠吴骅冷佩李召良
Owner INST OF AGRI RESOURCES & REGIONAL PLANNING CHINESE ACADEMY OF AGRI SCI
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