Unsupervised seismic facies analysis using sparse representation spectral clustering

Autor: Li Kun-Hong, Wang Liang-Ji, Liu Yu, Wang Yao-Jun, Luo Xian-Zhe, Xing Kai
Rok vydání: 2020
Předmět:
Zdroj: Applied Geophysics. 17:533-543
ISSN: 1993-0658
1672-7975
DOI: 10.1007/s11770-020-0839-1
Popis: Traditional unsupervised seismic facies analysis techniques need to assume that seismic data obey mixed Gaussian distribution. However, field seismic data may not meet this condition, thereby leading to wrong classification in the application of this technology. This paper introduces a spectral clustering technique for unsupervised seismic facies analysis. This algorithm is based on on the idea of a graph to cluster the data. Its kem is that seismic data are regarded as points in space, points can be connected with the edge and construct to graphs. When the graphs are divided, the weights of the edges between the different subgraphs are as low as possible, whereas the weights of the inner edges of the subgraph should be as high as possible. That has high computational complexity and entails large memory consumption for spectral clustering algorithm. To solve the problem this paper introduces the idea of sparse representation into spectral clustering. Through the selection of a small number of local sparse representation points, the spectral clustering matrix of all sample points is approximately represented to reduce the cost of spectral clustering operation. Verification of physical model and field data shows that the proposed approach can obtain more accurate seismic facies classification results without considering the data meet any hypothesis. The computing efficiency of this new method is better than that of the conventional spectral clustering method, thereby meeting the application needs of field seismic data.
Databáze: OpenAIRE
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