An Improved Toeplitz Measurement Matrix for Compressive Sensing
Compressive sensing (CS) takes advantage of the signal's sparseness in some domain, allowing the entire signal to be efficiently acquired and reconstructed from relatively few measurements. A proper measurement matrix for compressive sensing is significance in above processions. In most compres...
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SAGE Publishing
2014-06-01
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| Series: | International Journal of Distributed Sensor Networks |
| Online Access: | https://doi.org/10.1155/2014/846757 |
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doaj-27c7f34766254446acaf70aceb7d99ff2020-11-25T03:38:22ZengSAGE PublishingInternational Journal of Distributed Sensor Networks1550-14772014-06-011010.1155/2014/846757846757An Improved Toeplitz Measurement Matrix for Compressive SensingXu Su0Yin Hongpeng1Chai Yi2Xiong Yushu3Tan Xue4 College of Computer Science and Information Engineering, Chongqing Technology and Business University, Chongqing 400067, China College of Automation, Chongqing University, Chongqing 400044, China College of Automation, Chongqing University, Chongqing 400044, China Department of Electronic Engineering and Automation, Chongqing Vocational Institute of Engineering, Chongqing 400044, China College of Computer Science and Information Engineering, Chongqing Technology and Business University, Chongqing 400067, ChinaCompressive sensing (CS) takes advantage of the signal's sparseness in some domain, allowing the entire signal to be efficiently acquired and reconstructed from relatively few measurements. A proper measurement matrix for compressive sensing is significance in above processions. In most compressive sensing frameworks, random measurement matrix is employed. However, the random measurement matrix is hard to implement by hardware. So the randomness of the measurement matrix leads to the poor performance of signal reconstruction. In this paper, Toeplitz matrix is employed and optimized as a deterministic measurement matrix. A hardware platform for signal efficient acquisition and reconstruction is built by field programmable gate arrays (FPGA). Experimental results demonstrate the proposed approach, compare with the existing state-of-the-art method, and have the highest technical feasibility, lowest computational complexity, and least amount of time consumption in the same reconstruction quality.https://doi.org/10.1155/2014/846757 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Xu Su Yin Hongpeng Chai Yi Xiong Yushu Tan Xue |
| spellingShingle |
Xu Su Yin Hongpeng Chai Yi Xiong Yushu Tan Xue An Improved Toeplitz Measurement Matrix for Compressive Sensing International Journal of Distributed Sensor Networks |
| author_facet |
Xu Su Yin Hongpeng Chai Yi Xiong Yushu Tan Xue |
| author_sort |
Xu Su |
| title |
An Improved Toeplitz Measurement Matrix for Compressive Sensing |
| title_short |
An Improved Toeplitz Measurement Matrix for Compressive Sensing |
| title_full |
An Improved Toeplitz Measurement Matrix for Compressive Sensing |
| title_fullStr |
An Improved Toeplitz Measurement Matrix for Compressive Sensing |
| title_full_unstemmed |
An Improved Toeplitz Measurement Matrix for Compressive Sensing |
| title_sort |
improved toeplitz measurement matrix for compressive sensing |
| publisher |
SAGE Publishing |
| series |
International Journal of Distributed Sensor Networks |
| issn |
1550-1477 |
| publishDate |
2014-06-01 |
| description |
Compressive sensing (CS) takes advantage of the signal's sparseness in some domain, allowing the entire signal to be efficiently acquired and reconstructed from relatively few measurements. A proper measurement matrix for compressive sensing is significance in above processions. In most compressive sensing frameworks, random measurement matrix is employed. However, the random measurement matrix is hard to implement by hardware. So the randomness of the measurement matrix leads to the poor performance of signal reconstruction. In this paper, Toeplitz matrix is employed and optimized as a deterministic measurement matrix. A hardware platform for signal efficient acquisition and reconstruction is built by field programmable gate arrays (FPGA). Experimental results demonstrate the proposed approach, compare with the existing state-of-the-art method, and have the highest technical feasibility, lowest computational complexity, and least amount of time consumption in the same reconstruction quality. |
| url |
https://doi.org/10.1155/2014/846757 |
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