Non-Gaussian submarine landform type identification method based on multi-fractal spectrum characteristic

A multi-fractal spectrum and type identification technology, which is applied in the field of non-Gaussian seabed landform type identification, can solve the problems of high labor intensity, technicians cannot undertake massive data processing tasks, and poor timeliness, and achieve manpower saving, simple method, and calculation Small amount of effect

Inactive Publication Date: 2018-10-09
CHINA UNIV OF PETROLEUM (EAST CHINA) +1
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Problems solved by technology

This method can make full use of the knowledge of technicians and has good flexibility, but it requires technicians to have rich geological knowledge and experience in observation and judgment, which has great subjectivity, poor timeliness, and high labor intensity.
Especially due to the massive level of seabed data, it is far from being able to undertake the processing tasks of massive data only relying on the artificial ability of technicians

Method used

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  • Non-Gaussian submarine landform type identification method based on multi-fractal spectrum characteristic
  • Non-Gaussian submarine landform type identification method based on multi-fractal spectrum characteristic
  • Non-Gaussian submarine landform type identification method based on multi-fractal spectrum characteristic

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Embodiment Construction

[0026] In this embodiment, according to the multi-beam seabed bathymetric data, the kurtosis and skewness values ​​of the seabed terrain are calculated to determine whether the terrain depth distribution is non-Gaussian, and the multi-fractal spectral features and geomorphic factors of the non-Gaussian terrain are extracted. The vector machine establishes a geomorphic type classifier to realize the identification of three non-Gaussian geomorphic types: submarine gully, landslide, and water channel. The extracted features of multifractal spectrum include multifractal spectrum width, multifractal spectrum peak, maximum and minimum fractal dimension difference, capacity dimension and correlation dimension.

[0027] The specific identification steps are as follows:

[0028] (1) Non-Gaussian terrain judgment:

[0029] respectively according to Calculate the skewness m of the seabed depth of the area to be identified 1 , kurtosis m 2 , if satisfying m 1 >0 and m 2 >0, the ter...

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Abstract

The invention discloses a non-Gaussian submarine landform type identification method based on a multi-fractal spectrum characteristic. The method comprises the following steps of 1) calculating depthdistribution skewness and kurtosis according to submarine depth measurement data and determining whether a landform is a non-Gaussian landform; 2) calculating the multi-fractal spectrum characteristicof the non-Gaussian landform; 3) using the multi-fractal spectrum characteristic as an original variable, and applying a factor analysis method to extract a landform factor; 4) according to the landform factor, using a support vector machine to design a landform type classifier; and 5) calculating landform depth distribution skewness and kurtosis of a landform to be identified, determining the nongaussianity of the landform, calculating the multi-fractal spectrum characteristic of the non-Gaussian landform and the landform factor, and using the designed classifier to identify a landform type.The method has advantages that the method is simple, a calculated amount is small, an identification accuracy is high, and manpower is saved and so on. The method is suitable for non-Gaussian submarine landform type identification.

Description

technical field [0001] The invention relates to the technical fields of marine surveying and mapping, marine engineering, marine oil and gas resources, etc., in particular to a non-Gaussian seabed landform type identification method based on multi-fractal spectrum features. Background technique [0002] Geomorphology is the general term for various undulating shapes on the earth's surface. The types of submarine topography include paleochannels, scour troughs, submarine canyons, deep water channels, seamounts, carbonate platforms, cliffs, landslides, etc. Geomorphological classification is the basis of seabed geomorphological research and mapping. Geomorphic morphology can reflect the internal relationship between geomorphic genetic types and genetic control forms, and is the key to deep geological knowledge mining. [0003] The multi-beam sounding system can detect the fine features of the seabed topography and topography with wide coverage and high resolution. The system...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06K9/62G06K9/00
CPCG06F2218/10G06F2218/12G06F18/2411
Inventor 王微微王大伟吴时国吴一琼
Owner CHINA UNIV OF PETROLEUM (EAST CHINA)
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