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Article type: Research Article
Authors: Guan, Zhanrong
Affiliations: Teaching Department of Public Courses, Guangdong Polytechnic of Water Resources and Electric Engineering, Guangzhou, Guangdong, China | E-mail: [email protected]
Correspondence: [*] Corresponding author: Teaching Department of Public Courses, Guangdong Polytechnic of Water Resources and Electric Engineering, Guangzhou, Guangdong, China. E-mail: [email protected].
Abstract: With the rapid development of computer network technology, it is often necessary to collect weak signals to collect favorable information. The development of signal detection technology is ongoing; however, various issues arise during the detection process. These issues include low efficiency and a high signal noise threshold. However, many problems will be encountered in the process of detection. In order to solve these problems, the nonlinear chaos theory is introduced to detect signals, and the simulation experiments of weak pulse signals and weak partial discharge signals are carried out respectively. The experimental results showed that the detection effect was remarkable in the quasi periodic state, and it had a good detection effect for weak pulse signals. At a signal-to-noise ratio of -25 dB, double coupling system, two-way ring coupling system, and single ring coupling system displayed detection success rates exceeding 98%. Meanwhile, the detection success rate of the strong coupling system was only 12%. Even at a noise signal ratio as low as -40 dB, the dual coupling system still maintained a detection success rate above 80%. The simulation results of partial discharge signal detection showed that there was a high fluctuation only at 2 ms, and the rest was basically stable at about 0 V, indicating that the system had a strong suppression effect on Gaussian white noise. When comparing the simulation results of the detection of the new chaotic system and the double coupling system, it was found that the new chaotic system has a superior impact in detecting weakly attenuated partial discharge signals. Through analysis of the system’s dynamic behavior, the research confirms its rich dynamic characteristics and sheds light on the reasons for phase state mutation and missed detection. The noise system is utilized for comparing the performance of various systems, with the goal of enhancing the system’s detection capability.
Keywords: Nonlinear system, differential equation, chaos, electrical signal, pulse
DOI: 10.3233/JCM-247329
Journal: Journal of Computational Methods in Sciences and Engineering, vol. 24, no. 2, pp. 1207-1221, 2024
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