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Superglacial moraine covering type glacier identification method based on optical and thermal infrared remote sensing images

A thermal infrared remote sensing and identification method technology, applied in the field of moraine-covered glaciers identification, can solve the problems of difficult identification and distinction in the optical band of moraine-covered glaciers, and achieves easy promotion, convenient acquisition, and strong operability. Effect

Inactive Publication Date: 2014-01-08
NANJING UNIV
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Problems solved by technology

However, the traditional remote sensing identification methods of optical bands such as ice and snow index can only identify relatively clean glaciers, and it is difficult to identify moraine-covered glaciers in optical bands.
The surface of moraine-covered glaciers is covered by a layer of debris, which is similar to the spectral information of the exposed rocks around the glacier in the optical band range, and it is not easy to distinguish

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  • Superglacial moraine covering type glacier identification method based on optical and thermal infrared remote sensing images
  • Superglacial moraine covering type glacier identification method based on optical and thermal infrared remote sensing images
  • Superglacial moraine covering type glacier identification method based on optical and thermal infrared remote sensing images

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Embodiment Construction

[0036] The present invention will be described in detail below according to the accompanying drawings, so that the purpose and effect of the present invention will become more obvious.

[0037] Such as figure 1 As shown, it is a flow chart of the method for identifying moraine-covered glaciers based on optical and thermal infrared remote sensing images in this embodiment, and the specific steps are as follows:

[0038] The first step is to convert the DN value of each band of the Landsat TM remote sensing image into the radiance value received by the satellite according to the satellite parameter file, and obtain the images of each band represented by the radiance value.

[0039] In this step, according to the satellite imaging parameter file and image header file information provided on the official website of Landsat Mission, the DN value of each band is converted into the radiance value received by the satellite. For images imaged at different times, different sensors need...

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Abstract

The invention relates to a superglacial moraine covering type glacier identification method based on optical and thermal infrared remote sensing images, and belongs to the field of remote sensing geoscience application. According to the method, the thermal infrared wave band and the optical wave band of Landsat TM / ETM and remote sensing images are utilized, the data of a DEM (dynamic effect model) and the like is combined for carrying out identification on the superglacial moraine covering type glacier, firstly, the topical wave band of the TM / ETM images is subjected to atmosphere radiation correction and topography radiation correction, the thermal infrared wave band is used for carrying out ground surface temperature inversion, in addition, the normalization is carried out, then, the illumination region and the shade region are distinguished, and finally, a maximum likelihood method is utilized for respectively classifying the illumination region and the shade region of the images to obtain the types of ice, superglacial moraine covering type glacier, ice and rock debris mixed regions, shade, rock and the like. Compared with a traditional method, the superglacial moraine covering type glacier identification has the advantages that the thermal infrared waveband is introduced, the identification on the superglacial moraine covering type glacier is more accurate and efficient, and the results obtained by adopting the method provided by the invention are more reasonable in the aspect of data space resolution ratio resampling.

Description

technical field [0001] The invention relates to a moraine-covered glacier identification method based on optical and thermal infrared remote sensing images, and belongs to the technical field of remote sensing geoscience applications. Background technique [0002] Glacier resources are important freshwater resources on the earth, accounting for about 75% of the total freshwater resources, and glaciers are an important indicator of global climate change. Using remote sensing methods to identify glaciers is of great significance for understanding glacier resources and analyzing global climate change. However, the traditional remote sensing identification methods in optical bands such as ice and snow index can only identify relatively clean glaciers, and it is difficult to identify surface moraine-covered glaciers in optical bands. The surface of moraine-covered glaciers is covered by a layer of debris, which is similar to the spectral information of the exposed rocks around th...

Claims

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Application Information

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IPC IPC(8): G06K9/00G06K9/66
Inventor 柯长青寇程李澜宇韩艳飞刘洵
Owner NANJING UNIV
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