De-Noising Algorithm for Magnetotelluric Signal Based on Mathematical Morphology Filtering

Jin, Li; Tang, Jingtian; Xiao, Xiao

doi:10.1260/0957-4565.42.11.65

Cited by 3 publications

(1 citation statement)

References 16 publications

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“…The fundamental operators of MM are erosion and dilation. Based on these operations two other operations are defined as opening operation and closing operation [8]. Morphological operation and structuring element (SE) constitute MF.…”

Section: Morphology Filteringmentioning

confidence: 99%

Applied-Information Technology with Speech Enhancement Based on EMD and MF

Shen

2014

AMR

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Aiming at traditional methods cannot get good performance in noisy environments, an improved method for speech enhancement based on Empirical Mode Decomposition (EMD) and Morphology Filtering (MF) was proposed. The method firstly uses EMD to obtain Intrinsic Mode Function (IMF) and for hard threshold processing, then selects appropriate structuring element to construct MF for filtering processing in remaining IMFs. Finally, speech enhancement signal is reconstructed for each IMFs. Experimental results show that the proposed method for speech enhancement has better de-noising effect by comparing time-domain waveform and spectrogram. Moreover, the quality of reconstructed speech enhancement signal has been significantly improved.

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Section: Morphology Filteringmentioning

confidence: 99%

Applied-Information Technology with Speech Enhancement Based on EMD and MF

Shen

2014

AMR

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Power line interference noise elimination method based on independent component analysis in wavelet domain for magnetotelluric signal

Cao

Liu

2017

Geosystem Engineering

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Noise suppression for magnetotelluric sounding data based on signal subspace enhancement and endpoint detection

Jin¹,

Tang²,

Wang³

et al. 2014

Acta Phys. Sin.

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To retain useful information of magnetotelluric low frequency band and improve the capacity of magnetotelluric deep detection in ore concentration area with complex noises, the combined signal subspace enhancement with endpoint detection is proposed based on morphology filtering to secondary signal-to-noise separation processing. Firstly, aimed at noise contour extracted by morphology filtering, we use signal subspace enhancement to separate signal subspace and noise subspace for pretreatment. Secondly, the signal subspace is combined with reconstructed signal and the noise subspace is set to zero. Finally, endpoint detection for post-processing is carried out in order to identify the start and end points of the waveform mutation. Simulated results show that Cagniard resistivity curve in the low frequency band has been improved obviously, and the apparent resistivity value is relatively stable. The proposed method is better to offset the loss of low frequency useful information in the process of the morphological filtering, and the results can even more truly reflect the inherent deep structural information of low frequency components for the measured point itself.

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De-Noising Algorithm for Magnetotelluric Signal Based on Mathematical Morphology Filtering

Cited by 3 publications

References 16 publications

Applied-Information Technology with Speech Enhancement Based on EMD and MF

Applied-Information Technology with Speech Enhancement Based on EMD and MF

Power line interference noise elimination method based on independent component analysis in wavelet domain for magnetotelluric signal

Noise suppression for magnetotelluric sounding data based on signal subspace enhancement and endpoint detection

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