Abstract
We introduce a seismic signal compression method based on nonparametric Bayesian dictionary learning method via clustering. The seismic data is compressed patch by patch, and the dictionary is learned online. Clustering is introduced for dictionary learning. A set of dictionaries could be generated, and each dictionary is used for one cluster’s sparse coding. In this way, the signals in one cluster could be well represented by their corresponding dictionaries. A nonparametric Bayesian dictionary learning method is used to learn the dictionaries, which naturally infers an appropriate dictionary size for each cluster. A uniform quantizer and an adaptive arithmetic coding algorithm are adopted to code the sparse coefficients. With comparisons to other state-of-the art approaches, the effectiveness of the proposed method could be validated in the experiments.
Highlights
Oil companies are increasing their investment in seismic exploration, as oil is an indispensable resource for economic development
The rest of this paper is organized as follows: in Section 2, we introduce a seismic signal compression method based on offline dictionay learning
The seismic signals were divided into small segments for dictionary learning and sparse representation
Summary
Oil companies are increasing their investment in seismic exploration, as oil is an indispensable resource for economic development. Offline training data is necessary for learning the dictionary for the sparse representation of the online testing data. An online learning-based intra-frame video coding approach is proposed to exploit the texture sparsity of natural images [11]. This is denoted as a compression method based on Dictionary Learning by Online Dictionary transmitting (DLOD). We focus on how to compress seismic signals with the nonparametric Bayesian dictionary learning method via clustering. The rest of this paper is organized as follows: in Section 2, we introduce a seismic signal compression method based on offline dictionay learning.
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