On a Sparse Approximation of Compressible Signals

Dziwoki, Grzegorz; Kucharczyk, Marcin

doi:10.1007/s00034-019-01287-8

Cited by 5 publications

(4 citation statements)

References 20 publications

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“…When these conditions are met, iterative compressive sensing algorithms such as OMP (Orthogonal Matching Pursuit) [14,15] and CoSaMP (Compressive Sampling Matching Pursuit) [16] perform well. However, if the synchronization is not perfect, the observed channel response is the result of convolving the actual channel response (which has a limited number of coefficients) with the baseband filter response (which is theoretically infinite) of the transmission system [17,18].…”

Section: Motivationmentioning

confidence: 99%

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Equalizer Parameters’ Adjustment Based on an Oversampled Channel Model for OFDM Modulation Systems

Kucharczyk,

Dziwoki,

Izydorczyk

et al. 2024

Electronics

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A physical model of a wireless transmission channel in the time domain usually consists of the main propagation path and only a few reflections. The reasonable assumptions made about the channel model can improve its parameters’ estimation by a greedy OFDM (Orthogonal Frequency Division Multiplexing) equalizer. The equalizer works flawlessly if delays between propagation paths are in the sampling grid. Otherwise, the channel impulse response loses its compressible characteristic and the number of coefficients to find increases. It is possible to get back to the simple channel model by data oversampling. The paper describes how the above idea helps the OMP (Orthogonal Matching Pursuit) algorithm estimate channel coefficients. The authors analyze the oversampling algorithm on the one hand to assess the influence of filtering function and signal resolution on the quality of the channel impulse response reconstruction. On the other hand, the abilities of the OMP algorithm are analyzed to distinguish components of the oversampled signal. Based on these analyses, we proposed modifications to the compressible channel’s impulse response reconstruction algorithm to minimize the number of transmission errors. A distinction was made between the filters used in the OMP search and channel reconstruction stages before calculating equalizer coefficients. Additionally, the results of the search stage were considered as elements within the groups.

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Section: Motivationmentioning

confidence: 99%

“…A reliable stopping criterion occurs when the residue power is less than the noise power; however, the receiver needs to estimate the noise level [27]. An alternative approach involves comparing the power of the residue in consecutive iterations and terminating when the value changes minimally [17,18].…”

Section: Compressive Sensingmentioning

confidence: 99%

Equalizer Parameters’ Adjustment Based on an Oversampled Channel Model for OFDM Modulation Systems

Kucharczyk,

Dziwoki,

Izydorczyk

et al. 2024

Electronics

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“…The choice of the length U requires a little bit more investigation. The research in [16] reveals that the best estimate of compressible signal in terms of MSE is its sparse approximation. This means that only large-amplitude components of the signal should be recovered, and their number is inversely related to noise power.…”

Section: Proposed Modificationmentioning

confidence: 99%

“…However, the channel compressibility nature has not been exploited there. The authors' method is mathematically explained using a relation between estimation and approximation errors-the idea with a detailed description presented in [16]. A simulation comparative analysis with other popular DFT-based methods shows quality improvement of the uncoded transmission in terms of Bit Error Rate (BER) and Mean Square Error (MSE) measures in low and middle ranges of signal-to-noise ratio (SNR).…”

Section: Introductionmentioning

confidence: 99%

Estimation of Compressible Channel Impulse Response for OFDM Modulated Transmissions

Dziwoki

Kucharczyk

2021

Electronics

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Channel estimation scheme for OFDM modulated transmissions usually combines an initial block-pilot-assisted stage with a tracking one based on comb or scattered pilots distributed among user data in the signal frame. The channel reconstruction accuracy in the former stage has a significant impact on tracking efficiency of the channel variations and the overall transmission quality. The paper presents a new block-pilot-assisted channel reconstruction procedure based on the DFT-based approach and the Least Square impulse response estimation. The proposed method takes into account a compressibility feature of the channel impulse response and restores its coefficients in groups of automatically controlled size. The proposition is analytically explained and tested in a OFDM simulation environment. The popular DFT-based methods including compressed sensing oriented one were used as references for comparison purposes. The obtained results show a quality improvement in terms of Bit Error Rate and Mean Square Error measures in low and mid ranges of signal-to-noise ratio without significant computational complexity growth in comparison to the classical DFT-based solutions. Moreover, additional multiplication operations can be eliminated, compared to the competitive, in terms of estimation quality, compressed sensing reconstruction method based on greedy approach.

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Energy and sparse coding coefficients as sufficient measures for VEBs classification

Benarabi

Adnane

Momeni

2021

Biomedical Signal Processing and Control

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On a Sparse Approximation of Compressible Signals

Cited by 5 publications

References 20 publications

Equalizer Parameters’ Adjustment Based on an Oversampled Channel Model for OFDM Modulation Systems

Equalizer Parameters’ Adjustment Based on an Oversampled Channel Model for OFDM Modulation Systems

Estimation of Compressible Channel Impulse Response for OFDM Modulated Transmissions

Energy and sparse coding coefficients as sufficient measures for VEBs classification

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