Adaptive approach for variable noise suppression on laser-induced breakdown spectroscopy responses using stationary wavelet transform

[Display omitted] ► A noise reduction technique for LIBS signals using wavelet transform is presented. ► Variable thresholding eliminates undesired artifacts from single spectrum. ► Proposed approach offers superior signal preservation than other alternatives. ► Single emission lines are rarely dete...

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Bibliographic Details
Published in:Analytica chimica acta 2012-11, Vol.754, p.8-19
Main Authors: Schlenke, Jan, Hildebrand, Lars, Moros, Javier, Laserna, J. Javier
Format: Article
Language:English
Subjects:
Analytical chemistry
Automatic de-noising
Breakdown
Chemistry
Electricity
Exact sciences and technology
Lasers
LIBS
Noise
Shift invariant
Signal processing
Spectrometric and optical methods
Spectroscopy
Spectrum Analysis
Thresholding
Transformations
Wavelet
Wavelet Analysis
Wavelet transformation
Wavelet transforms
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Summary:[Display omitted] ► A noise reduction technique for LIBS signals using wavelet transform is presented. ► Variable thresholding eliminates undesired artifacts from single spectrum. ► Proposed approach offers superior signal preservation than other alternatives. ► Single emission lines are rarely deteriorated by more than 3% after denoising. Spectral signals are often corrupted by noise during their acquisition and transmission. Signal processing refers to a variety of operations that can be carried out on measurements in order to enhance the quality of information. In this sense, signal denoising is used to reduce noise distortions while keeping alterations of the important signal features to a minimum. The minimization of noise is a highly critical task since, in many cases, there is no prior knowledge of the signal or of the noise. In the context of denoising, wavelet transformation has become a valuable tool. The present paper proposes a noise reduction technique for suppressing noise in laser-induced breakdown spectroscopy (LIBS) signals using wavelet transform. An extension of the Donoho's scheme, which uses a redundant form of wavelet transformation and an adaptive threshold estimation method, is suggested. Capabilities and results achieved on denoising processes of artificial signals and actual spectroscopic data, both corrupted by noise with changing intensities, are presented. In order to better consolidate the gains so far achieved by the proposed strategy, a comparison with alternative approaches, as well as with traditional techniques, is also made.
ISSN:0003-2670
1873-4324
DOI:10.1016/j.aca.2012.10.012