Harmonic analysis in integrated energy system based on compressed sensing
The advent of Integrated Energy Systems enabled various distributed energy to access the system through different power electronic devices. The development of this has made the harmonic environment more complex. It needs low complexity and high precision of harmonic detection and analysis methods to...
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2016
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sg-smu-ink.sis_research-65512021-01-07T14:29:11Z Harmonic analysis in integrated energy system based on compressed sensing YANG, Ting PEN, Haibo WANG, Dan WANG, Zhaoxia The advent of Integrated Energy Systems enabled various distributed energy to access the system through different power electronic devices. The development of this has made the harmonic environment more complex. It needs low complexity and high precision of harmonic detection and analysis methods to improve power quality. To solve the shortages of large data storage capacities and high complexity of compression in sampling under the Nyquist sampling framework, this research paper presents a harmonic analysis scheme based on compressed sensing theory. The proposed scheme enables the performance of the functions of compressive sampling, signal reconstruction and harmonic detection simultaneously. In the proposed scheme, the sparsity of the harmonic signals in the base of the Discrete Fourier Transform (DFT) is numerically calculated first. This is followed by providing a proof of the matching satisfaction of the necessary conditions for compressed sensing. The binary sparse measurement is then leveraged to reduce the storage space in the sampling unit in the proposed scheme. In the recovery process, the scheme proposed a novel reconstruction algorithm called the Spectral Projected Gradient with Fundamental Filter (SPG-FF) algorithm to enhance the reconstruction precision. One of the actual microgrid systems is used as simulation example. The results of the experiment shows that the proposed scheme effectively enhances the precision of harmonic and inter-harmonic detection with low computing complexity, and has good capability of signal reconstruction. The maximum detection error reaches 0.0315%, and the reconstruction signals to noise ratio (SNR) is higher than 89 dB. (C) 2015 Elsevier Ltd. All rights reserved. 2016-03-01T08:00:00Z text application/pdf https://ink.library.smu.edu.sg/sis_research/5548 info:doi/10.1016/j.apenergy.2015.12.058 https://ink.library.smu.edu.sg/context/sis_research/article/6551/viewcontent/2016_HarmonicAnalysis_IntegratedEnergySys_av.pdf http://creativecommons.org/licenses/by-nc-nd/4.0/ Research Collection School Of Computing and Information Systems eng Institutional Knowledge at Singapore Management University Power quality Compressed sensing Harmonic analysis scheme SPG-FF algorithm Numerical Analysis and Scientific Computing Operations Research, Systems Engineering and Industrial Engineering |
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Power quality Compressed sensing Harmonic analysis scheme SPG-FF algorithm Numerical Analysis and Scientific Computing Operations Research, Systems Engineering and Industrial Engineering |
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Power quality Compressed sensing Harmonic analysis scheme SPG-FF algorithm Numerical Analysis and Scientific Computing Operations Research, Systems Engineering and Industrial Engineering YANG, Ting PEN, Haibo WANG, Dan WANG, Zhaoxia Harmonic analysis in integrated energy system based on compressed sensing |
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The advent of Integrated Energy Systems enabled various distributed energy to access the system through different power electronic devices. The development of this has made the harmonic environment more complex. It needs low complexity and high precision of harmonic detection and analysis methods to improve power quality. To solve the shortages of large data storage capacities and high complexity of compression in sampling under the Nyquist sampling framework, this research paper presents a harmonic analysis scheme based on compressed sensing theory. The proposed scheme enables the performance of the functions of compressive sampling, signal reconstruction and harmonic detection simultaneously. In the proposed scheme, the sparsity of the harmonic signals in the base of the Discrete Fourier Transform (DFT) is numerically calculated first. This is followed by providing a proof of the matching satisfaction of the necessary conditions for compressed sensing. The binary sparse measurement is then leveraged to reduce the storage space in the sampling unit in the proposed scheme. In the recovery process, the scheme proposed a novel reconstruction algorithm called the Spectral Projected Gradient with Fundamental Filter (SPG-FF) algorithm to enhance the reconstruction precision. One of the actual microgrid systems is used as simulation example. The results of the experiment shows that the proposed scheme effectively enhances the precision of harmonic and inter-harmonic detection with low computing complexity, and has good capability of signal reconstruction. The maximum detection error reaches 0.0315%, and the reconstruction signals to noise ratio (SNR) is higher than 89 dB. (C) 2015 Elsevier Ltd. All rights reserved. |
| format |
text |
| author |
YANG, Ting PEN, Haibo WANG, Dan WANG, Zhaoxia |
| author_facet |
YANG, Ting PEN, Haibo WANG, Dan WANG, Zhaoxia |
| author_sort |
YANG, Ting |
| title |
Harmonic analysis in integrated energy system based on compressed sensing |
| title_short |
Harmonic analysis in integrated energy system based on compressed sensing |
| title_full |
Harmonic analysis in integrated energy system based on compressed sensing |
| title_fullStr |
Harmonic analysis in integrated energy system based on compressed sensing |
| title_full_unstemmed |
Harmonic analysis in integrated energy system based on compressed sensing |
| title_sort |
harmonic analysis in integrated energy system based on compressed sensing |
| publisher |
Institutional Knowledge at Singapore Management University |
| publishDate |
2016 |
| url |
https://ink.library.smu.edu.sg/sis_research/5548 https://ink.library.smu.edu.sg/context/sis_research/article/6551/viewcontent/2016_HarmonicAnalysis_IntegratedEnergySys_av.pdf |
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