Cable coupling noise suppression method based on sparse optimization of time-frequency domain

A coupling noise and sparse optimization technology, which is applied in the field of signal processing, can solve problems such as effective signal damage, weak optical cables not being detected, and incomplete denoising, and achieve the effects of suppressing optical cable coupling noise, strong adaptability, and high fidelity

Active Publication Date: 2017-06-13
XI AN JIAOTONG UNIV
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Problems solved by technology

[0006] (1) This method needs to identify noise channels, and sometimes the individual channel data of weak optical cable coupling noise cannot be detected
[0007] (2) This method is based on obtaining simulated noise and subtracting it, but the form of coupled noise of different seismic data is complex, so sometimes it will lead to incomplete denoising or damage to effective signals

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  • Cable coupling noise suppression method based on sparse optimization of time-frequency domain
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  • Cable coupling noise suppression method based on sparse optimization of time-frequency domain

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Embodiment Construction

[0069] The present invention will be described in further detail below in conjunction with the accompanying drawings and specific embodiments.

[0070] The invention is a distributed optical fiber cable coupling noise separation method based on time-frequency domain sparse optimization. According to the difference in time-frequency characteristics between effective signal and optical cable coupling noise in distributed optical fiber recording, the present invention selects continuous wavelet transform to represent effective signal sparsely, and global discrete cosine transform to represent optical cable coupling noise sparsely, and constructs these two types of waveform morphology dictionaries into a super A complete dictionary, implemented using the block coordinate relaxation algorithm.

[0071] Such as Figures 1A-1C As shown, the effective signal in a single-channel data recorded by distributed optical fiber is interfered by strong optical cable coupling noise. In the am...

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Abstract

The invention discloses a cable coupling noise suppression method based on sparse optimization of a time-frequency domain. The method comprises the steps of 01, determining two conversion dictionaries for morphological component analysis according to morphological characteristics of an effective signal waveform and cable coupling noise, and forming an over-complete dictionary; 02, performing single track treatment on original seismic record data by using a segmented coordinate relaxation algorithm to achieve signal and noise separation, thus acquiring primarily noise-suppressed data; 03, performing high-pass filtering treatment on the primarily noise-suppressed data, subtracting the high-pass filtered noise data from the original data to acquire the effective signal data, thus eliminating wave dispersion; and repeating the steps 02-03 until the data of all tracks is processed. According to the method provided by the invention, the problem of interference of the cable coupling noise in the seismic data collected by distributed optical fibers is solved, and the cable coupling noise is thoroughly suppressed. In addition, the method provided by the invention can perform single-shot treatment, is good in adaptation, and can perform treatment in parallel, and meet industrial large-scale computing requirement.

Description

technical field [0001] The invention relates to the field of signal processing, in particular to a method for suppressing optical cable coupling noise in the field of seismic exploration. Background technique [0002] Since the 1970s, with the great development of optical fiber and optical fiber sensing technology, optical fiber has been widely used in the field of communication sensing. Distributed optical fiber sensing technology utilizes the characteristics of optical fiber itself to use optical fiber as a sensitive element, with high resolution, small error, and long measurement distance, which can realize long-distance measurement and monitoring, especially suitable for large-scale multi-point measurement, and can accurately measure the optical fiber Information about temperature, vibration, and damage at each point along the line. Compared with traditional sensors, distributed optical fibers have the advantages of anti-electromagnetic interference, anti-corrosion, hig...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01V1/36
CPCG01V1/36G01V1/364G01V2210/324G01V2210/21
Inventor 陈文超陈建友王晓凯王伟李祥芳
Owner XI AN JIAOTONG UNIV
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