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Grid Fault Diagnosis Based on Information Entropy and Multi-source Information Fusion

Xin Zeng Xingzhong Xiong Zhongqiang Luo
International Journal of Electronics and Telecommunications | 2021 | vol. 67 | No 2 | 143-148 | DOI: 10.24425/ijet.2021.135956
Keywords Information entropy Bayesian network Multisource information fusion D-S evidence theory fault diagnosis
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Abstract

In order to solve the problem of misjudgment caused by the traditional power grid fault diagnosis methods, a new fusion diagnosis method is proposed based on the theory of multisource information fusion. In this method, the fault degree of the power element is deduced by using the Bayesian network. Then, the time-domain singular spectrum entropy, frequencydomain power spectrum entropy and wavelet packet energy spectrum entropy of the electrical signals of each circuit after the failure are extracted, and these three characteristic quantities are taken as the fault support degree of the power components. Finally, the four fault degrees are normalized and classified as four evidence bodies in the D-S evidence theory for multifeature fusion, which reduces the uncertainty brought by a single feature body. Simulation results show that the proposed method can obtain more reliable diagnosis results compared with the traditional methods.
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Bibliography

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[8] Bangcheng Lai and Genxiu Wu, ”The Evidence Combination Method Based on Information Entropy”, Journal of Jiangxi Normal University (Natural Science), 2012, 36(5), 519-523.
[9] Libo Liu, Tingting Zhao, Yancang Li and Bin Wang, ”An Improved Whale Algorithm Based on Information Entry”, Mathematics in practice and theory, 2020, 50(2), 211-219.
[10] Juan Yan, Minfang Peng, et al., ”Fault Diagnosis of Grounding Grids Based on Information Entropy and Evidence Fusion”, Proceedings of the CSU-EPSA, 2017, 29(12),8-13.
[11] Ershadi, Mohammad Mahdi and Seifi, Abbas, ”An efficient Bayesian network for differential diagnosis using experts’ knowledge”, International Journal of Intelligent Computing and Cybernetics, 2020, 13(1), 103-126.
[12] Guan Li, Zhifeng Liu, Ligang Cai and Jun Yan, ”Standing-Posture Recognition in Human–Robot Collaboration Based on Deep Learning and the Dempster–Shafer Evidence Theory”, Sensors, 2020, 20(4), 1- 17.
[13] Xiaofei He, Xiaoyang Tong and Shu Zhou, ”Power system fault diagnosis based on Bayesian network and fault section location”, Power system protection and control, 2010, 38(12), 29-34.
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Authors and Affiliations

Xin Zeng
1 2
Xingzhong Xiong
1 3
Zhongqiang Luo
1 3
  1. School of Automation and Information Engineering, Sichuan University of Science and Engineering, Yibin, China
  2. Artificial Intelligence Key Laboratory of Sichuan Province, Sichuan University of Science and Engineering, Yibin, China
  3. Artificial Intelligence Key Laboratory of Sichuan Province, Sichuan Universityof Science and Engineering, Yibin, China

Two Optimization Ways of DDR3 Transmission Line Equal-Length Wiring Based on Signal Integrity

Kaixing Cheng Zhongqiang Luo Xingzhong Xiong Xiaohan Wei
International Journal of Electronics and Telecommunications | 2021 | vol. 67 | No 3 | 385-394 | DOI: 10.24425/ijet.2021.137824
Keywords high-speed PCB signal integrity equal-length wiring HyperLynx
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Abstract

As we enter the 5G (5th-Generation) era, the amount of information and data has become increasingly tremendous. Therefore, electronic circuits need to have higher chip density, faster operating speed and better signal quality of transmission. As the carrier of electronic components, the design difficulty of high-speed PCB (Printed Circuit Board) is also increasing. Equal-length wiring is an essential part of PCB design. But now, it can no longer meet the needs of designers. Accordingly, in view of the shortcomings of the traditional equal-length wiring, this article proposes two optimization ways: the ”spiral wiring” way and the ”double spiral wiring” way. Based on the theoretical analysis of the transmission lines, the two optimization ways take the three aspects of optimizing the layout and wiring space, suppressing crosstalk and reducing reflection as the main points to optimize the design. Eventually, this article performs simulation and verification of schematic diagram and PCB of the optimal design by using HyperLynx simulation software. The simulation results show that these two ways not only improve the flexibility of the transmission line layout, but also improve the signal integrity of the transmission lines. Of course, this also proves the feasibility and reliability of the two optimized designs.
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Bibliography

[1] Gong Yonglin. The hot spots of printed circuit technology in 2020. Printed Circuit Information, 28(2):1–11, 2020.
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[3] YuanWei-Qun, Song Jian-Yuan, Chen Shi-Rong, Suntak Technology Co, and LTD. Research and optimization design of high-speed pcb based on signal integrity. Journal of Guangdong University of Technology, 36(6):74–79, 2019.
[4] L.W.; Zhao Z.L. Yang, C.Z.; De. Research on signal integrity in high speed digital pcb board design. Automation and Instrumentation, (9):1– 4, 2018.
[5] YuanWei-Qun, Song Jian-Yuan, Chen Shi-Rong, Suntak Technology Co, and LTD. Research and optimization design of high-speed pcb based on signal integrity. Journal of Guangdong University of Technology, 36(6):74–79, 2019.
[6] Zhang Min. Signal integrity and design optimization of high speed parallel bus interface. Wireless Internet Technology, 15(6):3–4, 2019.
[7] Nastaran Soleimani, Mohammad G H Alijani, and Mohammad Hassan Neshati. Crosstalk analysis of multi-microstrip coupled lines using transmission line modeling. International Journal of Rf and Microwave Computer-aided Engineering, 29(6), 2019.
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[11] C. Liao, B. Mutnury, C. Chen, and Y. Lee. Pcb stack-up design and optimization for next generation speeds. In 2016 IEEE 25th Conference on Electrical Performance Of Electronic Packaging And Systems (EPEPS), pages 155–158, 2016.
[12] Nastaran Soleimani, Mohammad GH Alijani, and Mohammad H Neshati. Crosstalk analysis at near-end and far-end of the coupled transmission lines based on eigenvector decomposition. AEU-International Journal of Electronics and Communications, 112:152944, 2019.
[13] X. Ye and C. Ye. Transmission lines and basic signal integrity. In 2018 IEEE Symposium on Electromagnetic Compatibility, Signal Integrity and Power Integrity (EMC, SI PI), pages 1–51, 2018.
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[15] J. Fan, X. Ye, J. Kim, B. Archambeault, and A. Orlandi. Signal integrity design for high-speed digital circuits: Progress and directions. IEEE Transactions on Electromagnetic Compatibility, 52(2):392–400, 2010.
[16] Dong Zhang, L. I. Qiong, and Qianqin Qin. Application of simulation analysis based on ibis model to sdram pcb design. Journal of Wuhan University, 2011.
[17] A. K. Pandey. Power-aware signal integrity analysis of ddr4 data bus in onboard memory module. In 2016 IEEE 20th Workshop on Signal and Power Integrity (SPI), pages 1–4, 2016.
[18] Nastaran Soleimani, Mohammad GH Alijani, and Mohammad H Neshati. Crosstalk analysis of multi-microstrip coupled lines using transmission line modeling. International Journal of RF and Microwave Computer-Aided Engineering, 29(6):e21677, 2019.
[19] S. M¨uller, T. Reuschel, R. Rimolo-Donadio, Y. H. Kwark, H. Br¨uns, and C. Schuster. Energy-aware signal integrity analysis for high-speed pcb links. IEEE Transactions on Electromagnetic Compatibility, 57(5):1226– 1234, 2015.
[20] Jie Tang, Yi Gong, and Zhen Guo Yang. Failure analysis on cracking of blind and buried vias of printed circuit board for high-end mobile phones. Soldering and Surface Mount Technology, 31(4), 2019.
[21] Liu Lu, Cao Yuesheng, and Duo Ruihua. Design and realization of high-density fdr interconnection switch board. Computer Engineering, (6):3, 2016.
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Authors and Affiliations

Kaixing Cheng
1
Zhongqiang Luo
1
Xingzhong Xiong
1
Xiaohan Wei
1
  1. Artificial Intelligence Key Laboratory of Sichuan Province, Sichuan University of Science and Engineering, Yibin, China

Impulse Noise Suppression Based on Power Iterative ICA in Power Line Communication

Wei Zhang Zhongqiang Luo Xingzhong Xiong
International Journal of Electronics and Telecommunications | 2019 | vol. 65 | No 4 | 651-656 | DOI: 10.24425/ijet.2019.129824
Keywords Power line communication (PLC) orthogonal frequency division multiplexing (OFDM) signal independent component analysis (ICA) impulse noise
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Abstract

To overcome the detrimental influence of α impulse noise in power line communication and the trap of scarce prior information in traditional noise suppression schemes , a power iteration based fast independent component analysis (PowerICA) based noise suppression scheme is designed in this paper. Firstly, the pseudo-observation signal is constructed by weighted processing so that single-channel blind separation model is transformed into the multi-channel observed model. Then the proposed blind separation algorithm is used to separate noise and source signals. Finally, the effectiveness of the proposed algorithm is verified by experiment simulation. Experiment results show that the proposed algorithm has better separation effect, more stable separation and less implementation time than that of FastICA algorithm, which also improves the real-time performance of communication signal processing.

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Authors and Affiliations

Wei Zhang
ORCID: ORCID
Zhongqiang Luo
Xingzhong Xiong

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