Enhancing data sparsity in spectral signals using wavelet decomposition for improved compression and storage efficiency
Document Type
Article
Publication Date
9-1-2024
Abstract
Wavelet decomposition (WD) is integrated into the Compressive Sensing (CS) model to enhance data sparsity. This approach aims to ensure efficiency and quality in the received data after compression and reconstruction processes. The proposed WD -CS model is developed for reflected spectra signals from Fiber Bragg Gratings -based extensometers, which were subjected to induced deflections simulating the underground soil movement. WD decomposes the input signal before compressive measurement, followed by transferring and storing the compressed data in the cloud. The spectral data were reconstructed using Orthogonal Matching Pursuit (OMP) followed by wavelet reconstruction. The impact of wavelet decomposition on the quality of compression and reconstruction is assessed and compared against that of the standard CS model. The findings indicate that the WD -CS model can improve data sparsity by a factor of three and compressibility by a factor of ten without degenerating the reconstructed data quality. The error in the Bragg wavelength shift of the reconstructed spectra is minimal extracted using Pseudo -high Resolution Interrogation (PHRI) method. The proposed WD -CS model is useful in improving data compression for FBG spectra as well as storage efficiency, which make it potentially applicable in FBG-based sensor networks for long-term structural health monitoring applications.
Keywords
Compressive sensing, FBG extensometer, Wavelet decomposition, Spectra sparsity, Reconstruction scheme, Pseudo-high resolution interrogation
Divisions
sch_civ,photonics
Funders
Ministry of Energy, Science, Technology, Environment and Climate Change (MESTECC), Malaysia (TDF06221580) ; (MOSTI003-2023TED1),UM Matching Grant, University of Malaya (MG029-2022)
Publication Title
Optical Fiber Technology
Volume
86
Publisher
Elsevier
Publisher Location
STE 800, 230 PARK AVE, NEW YORK, NY 10169 USA