A Novel Optimization Method for Bipolar Chaotic Toeplitz Measurement Matrix in Compressed Sensing
In this paper, a bipolar chaotic Toeplitz measurement matrix optimization algorithm for alternating optimization is presented. The construction of measurement matrices is one of the key techniques for compressive sensing from theory to engineering applications. Recent studies have shown that bipolar...
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doaj-01ccaaecdda04214ab8fd8616fff93642021-08-09T00:01:08ZengHindawi LimitedJournal of Sensors1687-72682021-01-01202110.1155/2021/4024737A Novel Optimization Method for Bipolar Chaotic Toeplitz Measurement Matrix in Compressed SensingRui Zhang0Chen Meng1Cheng Wang2Qiang Wang3Shijiazhuang CampusShijiazhuang CampusShijiazhuang CampusShijiazhuang CampusIn this paper, a bipolar chaotic Toeplitz measurement matrix optimization algorithm for alternating optimization is presented. The construction of measurement matrices is one of the key techniques for compressive sensing from theory to engineering applications. Recent studies have shown that bipolar chaotic Toeplitz matrices, constructed by combining the intrinsic determinism of bipolar chaotic sequences with the advantages of Toeplitz matrices, have significant advantages over other measurement matrices in terms of memory overhead, computational complexity, and hard implementation. However, problems such as strong correlation and large interdependence coefficients between measurement matrices and sparse dictionaries may still exist in practical applications. To address this problem, we propose a new bipolar chaotic Toeplitz measurement matrix alternating optimization algorithm. Firstly, by introducing the structure matrix, the optimization problem of the measurement matrix is transformed into the optimization problem of the generating sequence, thus ensuring that the optimization process does not destroy the structural properties of the matrix; then, constraints are added to the values of the generating sequence during the optimization process, so that the optimized measurement matrix still maintains the bipolar properties. Finally, the effectiveness of the optimization algorithm in this paper is verified by simulation experiments. The experimental results show that the optimized bipolar chaotic Toeplitz measurement matrix can effectively reduce the reconstruction error and improve the reconstruction probability.http://dx.doi.org/10.1155/2021/4024737 |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Rui Zhang Chen Meng Cheng Wang Qiang Wang |
spellingShingle |
Rui Zhang Chen Meng Cheng Wang Qiang Wang A Novel Optimization Method for Bipolar Chaotic Toeplitz Measurement Matrix in Compressed Sensing Journal of Sensors |
author_facet |
Rui Zhang Chen Meng Cheng Wang Qiang Wang |
author_sort |
Rui Zhang |
title |
A Novel Optimization Method for Bipolar Chaotic Toeplitz Measurement Matrix in Compressed Sensing |
title_short |
A Novel Optimization Method for Bipolar Chaotic Toeplitz Measurement Matrix in Compressed Sensing |
title_full |
A Novel Optimization Method for Bipolar Chaotic Toeplitz Measurement Matrix in Compressed Sensing |
title_fullStr |
A Novel Optimization Method for Bipolar Chaotic Toeplitz Measurement Matrix in Compressed Sensing |
title_full_unstemmed |
A Novel Optimization Method for Bipolar Chaotic Toeplitz Measurement Matrix in Compressed Sensing |
title_sort |
novel optimization method for bipolar chaotic toeplitz measurement matrix in compressed sensing |
publisher |
Hindawi Limited |
series |
Journal of Sensors |
issn |
1687-7268 |
publishDate |
2021-01-01 |
description |
In this paper, a bipolar chaotic Toeplitz measurement matrix optimization algorithm for alternating optimization is presented. The construction of measurement matrices is one of the key techniques for compressive sensing from theory to engineering applications. Recent studies have shown that bipolar chaotic Toeplitz matrices, constructed by combining the intrinsic determinism of bipolar chaotic sequences with the advantages of Toeplitz matrices, have significant advantages over other measurement matrices in terms of memory overhead, computational complexity, and hard implementation. However, problems such as strong correlation and large interdependence coefficients between measurement matrices and sparse dictionaries may still exist in practical applications. To address this problem, we propose a new bipolar chaotic Toeplitz measurement matrix alternating optimization algorithm. Firstly, by introducing the structure matrix, the optimization problem of the measurement matrix is transformed into the optimization problem of the generating sequence, thus ensuring that the optimization process does not destroy the structural properties of the matrix; then, constraints are added to the values of the generating sequence during the optimization process, so that the optimized measurement matrix still maintains the bipolar properties. Finally, the effectiveness of the optimization algorithm in this paper is verified by simulation experiments. The experimental results show that the optimized bipolar chaotic Toeplitz measurement matrix can effectively reduce the reconstruction error and improve the reconstruction probability. |
url |
http://dx.doi.org/10.1155/2021/4024737 |
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