Abstract
Abstract The basic task of railway signal work is to ensure safe and smooth transportation, improve transportation capacity, and improve transportation conditions and quality. Since it carries important information and control technology; it must be characterized by high security and high reliability. To address the aforementioned issues, this study uses a nonlinear technique to provide high-precision real-time detection of frequency shift signal parameters, based on an investigation of the sources of spectrum leakage in the FFT transformation. It not only reduces the sampling time but also the computation time when compared to the nonlinear method. This paper presents a frequency shift track circuit parameter based on nonlinear algorithm, studies the application of frequency shift signal parameter detection based on nonlinear algorithm, and simulates it with MATLAB. The experimental results show that the errors of center frequency, low frequency, and frequency offset are distributed in the range of ±0.05 Hz, ±0.005 Hz and ±0.15 Hz, respectively, which meet the parameters of frequency shift signal. The algorithm can meet the requirement of technical indexes and shorten the sampling time, which provides a theoretical basis for the design of the real-time frequency shift signal parameter tester.
Highlights
The basic task of railway signal work is to ensure safe and smooth transportation, improve transportation capacity, and improve transportation conditions and quality
This paper presents a frequency shift track circuit parameter based on nonlinear algorithm, studies the application of frequency shift signal parameter detection based on nonlinear algorithm, and simulates it with MATLAB
The experimental results show that the errors of center frequency, low frequency, and frequency offset are distributed in the range of ±0.05 Hz, ±0.005 Hz and ±0.15 Hz, respectively, which meet the parameters of frequency shift signal
Summary
Abstract: The basic task of railway signal work is to ensure safe and smooth transportation, improve transportation capacity, and improve transportation conditions and quality. To address the aforementioned issues, this study uses a nonlinear technique to provide high-precision realtime detection of frequency shift signal parameters, based on an investigation of the sources of spectrum leakage in the FFT transformation It reduces the sampling time and the computation time when compared to the nonlinear method. To solve the above problems, based on the analysis of the causes of spectrum leakage in the FFT transformation, this study adopts a nonlinear algorithm to realize the high-precision real-time detection of frequency shift signal parameters. On the basis of the present research, the application of frequency parameter detection of frequency shifting track circuit based on nonlinear algorithm is studied [24]. The present paperwork proposes a nonlinear algorithm in which frequency shifting track circuit has been studied to shorten the time of signal processing. The principal and application of nonlinear algorithm has been mentioned
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