A quantitative analysis method for GPR signals based on optimal biorthogonal wavelet 被引量：6

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作者 LIU Hao-ran LING Tong-hua +2 位作者 LI Di-yuan HUANG Fu ZHANG Liang 《Journal of Central South University》 SCIE EI CAS CSCD 2018年第4期879-891,共13页

Due to the disturbances arising from the coherence of reflected waves and from echo noise,problems such as limitations,instability and poor accuracy exist with the current quantitative analysis methods.According to th... Due to the disturbances arising from the coherence of reflected waves and from echo noise,problems such as limitations,instability and poor accuracy exist with the current quantitative analysis methods.According to the intrinsic features of GPR signals and wavelet time–frequency analysis,an optimal wavelet basis named GPR3.3 wavelet is constructed via an improved biorthogonal wavelet construction method to quantitatively analyse the GPR signal.A new quantitative analysis method based on the biorthogonal wavelet(the QAGBW method)is proposed and applied in the analysis of analogue and measured signals.The results show that compared with the Bayesian frequency-domain blind deconvolution and with existing wavelet bases,the QAGBW method based on optimal wavelet can limit the disturbance from factors such as the coherence of reflected waves and echo noise,improve the quantitative analytical precision of the GPR signal,and match the minimum thickness for quantitative analysis with the vertical resolution of GPR detection. 展开更多

关键词 GPR detection signal quantitative analysis wavelet time–frequency analysis biorthogonal wavelet basis

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Application of time–frequency entropy from wake oscillation to gas–liquid flow pattern identification 被引量：6

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作者 HUANG Si-shi SUN Zhi-qiang +1 位作者 ZHOU Tian ZHOU Jie-min 《Journal of Central South University》 SCIE EI CAS CSCD 2018年第7期1690-1700,共11页

Gas–liquid two-phase flow abounds in industrial processes and facilities. Identification of its flow pattern plays an essential role in the field of multiphase flow measurement. A bluff body was introduced in this s... Gas–liquid two-phase flow abounds in industrial processes and facilities. Identification of its flow pattern plays an essential role in the field of multiphase flow measurement. A bluff body was introduced in this study to recognize gas–liquid flow patterns by inducing fluid oscillation that enlarged differences between each flow pattern. Experiments with air–water mixtures were carried out in horizontal pipelines at ambient temperature and atmospheric pressure. Differential pressure signals from the bluff-body wake were obtained in bubble, bubble/plug transitional, plug, slug, and annular flows. Utilizing the adaptive ensemble empirical mode decomposition method and the Hilbert transform, the time–frequency entropy S of the differential pressure signals was obtained. By combining S and other flow parameters, such as the volumetric void fraction β, the dryness x, the ratio of density φ and the modified fluid coefficient ψ, a new flow pattern map was constructed which adopted S（1–x）φ and （1–β）ψ as the vertical and horizontal coordinates, respectively. The overall rate of classification of the map was verified to be 92.9% by the experimental data. It provides an effective and simple solution to the gas–liquid flow pattern identification problems. 展开更多

关键词 gas–liquid two-phase flow wake oscillation flow pattern map time–frequency entropy ensemble empirical mode decomposition Hilbert transform

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Time-frequency multiresolution of fault-generated transient signals in transmission lines using a morphological filter 被引量：1

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作者 Juan Carlos Quispe John Morales +3 位作者 Eduardo Orduna Carlo Liebermann Michael Bruhns Peter Schegner 《Protection and Control of Modern Power Systems》 SCIE EI 2023年第2期85-98,共14页

The ongoing transformation of electrical power systems highlights the weaknesses of the protection schemes of traditional devices because they are designed and configured according to traditional characteristics of th... The ongoing transformation of electrical power systems highlights the weaknesses of the protection schemes of traditional devices because they are designed and configured according to traditional characteristics of the system.Therefore,this work proposes a new methodology to study the fault-generated high frequency transient signals in transmission lines through multiresolution analysis.The high frequency components are determined by a new digital filtering technique based on mathematical morphology theory and a spectral energy index.Consequently,wide spectra of signals in the time–frequency domain are obtained.The performance of this method is verified on an electrical power system modeled in ATP-Draw,where simulation and test signals are developed for different locations,fault resistances,inception angles,high frequency noises,sampling frequencies,types of faults,and shapes of the structuring element.The results show the characteristics of the fault such as the traveling wave frequency,location,and starting time. 展开更多

关键词 Digital filter High frequency Mathematical morphology time–frequency Traveling waves

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Few-shot working condition recognition of a sucker-rod pumping system based on a 4-dimensional time-frequency signature and meta-learning convolutional shrinkage neural network 被引量：1

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作者 Yun-Peng He Chuan-Zhi Zang +4 位作者 Peng Zeng Ming-Xin Wang Qing-Wei Dong Guang-Xi Wan Xiao-Ting Dong 《Petroleum Science》 SCIE EI CAS CSCD 2023年第2期1142-1154,共13页

The accurate and intelligent identification of the working conditions of a sucker-rod pumping system is necessary. As onshore oil extraction gradually enters its mid-to late-stage, the cost required to train a deep le... The accurate and intelligent identification of the working conditions of a sucker-rod pumping system is necessary. As onshore oil extraction gradually enters its mid-to late-stage, the cost required to train a deep learning working condition recognition model for pumping wells by obtaining enough new working condition samples is expensive. For the few-shot problem and large calculation issues of new working conditions of oil wells, a working condition recognition method for pumping unit wells based on a 4-dimensional time-frequency signature (4D-TFS) and meta-learning convolutional shrinkage neural network (ML-CSNN) is proposed. First, the measured pumping unit well workup data are converted into 4D-TFS data, and the initial feature extraction task is performed while compressing the data. Subsequently, a convolutional shrinkage neural network (CSNN) with a specific structure that can ablate low-frequency features is designed to extract working conditions features. Finally, a meta-learning fine-tuning framework for learning the network parameters that are susceptible to task changes is merged into the CSNN to solve the few-shot issue. The results of the experiments demonstrate that the trained ML-CSNN has good recognition accuracy and generalization ability for few-shot working condition recognition. More specifically, in the case of lower computational complexity, only few-shot samples are needed to fine-tune the network parameters, and the model can be quickly adapted to new classes of well conditions. 展开更多

关键词 Few-shot learning Indicator diagram META-LEARNING Soft thresholding Sucker-rod pumping system time–frequency signature Working condition recognition

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A study on characteristic indexesof railway ballast bed underhigh-frequency radar

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作者 Shilei Wang Zhan Peng +2 位作者 Guixian Liu Weile Qiang Chi Zhang 《Railway Sciences》 2023年第1期33-47,共15页

Purpose–In this paper,a high-frequency radar test system was used to collect the data of clean ballast bed and fouled ballast bed of ballasted tracks,respectively,for a quantitative evaluation of the condition of rai... Purpose–In this paper,a high-frequency radar test system was used to collect the data of clean ballast bed and fouled ballast bed of ballasted tracks,respectively,for a quantitative evaluation of the condition of railway ballast bed.Design/methodology/approach–Based on original radar signals,the time–frequency characteristics of radar signals were analyzed,five ballast bed condition characteristic indexes were proposed,including the frequency domain integral area,scanning area,number of intersections with the time axis,number of timedomain inflection points and amplitude envelope obtained by Hilbert transform,and the effectiveness and sensitivity of the indexes were analyzed.Findings–The thickness of ballast bed tested at the sleep bottom by high-frequency radar is up to 55 cm,which meets the requirements of ballast bed detection.Compared with clean ballast bed,the values of the five indexes of fouled ballast bed are larger,and the five indexes could effectively show the condition of the ballast bed.The computational efficiency of amplitude envelope obtained by Hilbert transform is 140 s$km
1,and the computational efficiency of other indexes is 5 s$km
1.The amplitude envelopes obtained by Hilbert transform in the subgrade sections and tunnel sections are the most sensitive,followed by scanning area.The number of intersections with the time axis in the bridge sections was the most sensitive,followed by the scanning area.The scanning area can adapt to different substructures such as subgrade,bridges and tunnels,with high comprehensive sensitivity.Originality/value–The research can provide appropriate characteristic indexes from the high-frequency radar original signal to quantitatively evaluate ballast bed condition under different substructures. 展开更多

关键词 Ballasted track Ballast bed High-frequency radar TEST time–frequency characteristics Characteristic indexes

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Nonstationary sparsity-constrained seismic deconvolution 被引量：3

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作者 孙学凯 孙赞东 谢会文 《Applied Geophysics》 SCIE CSCD 2014年第4期459-467,510,共10页

The Robinson convolution model is mainly restricted by three inappropriate assumptions, i.e., statistically white reflectivity, minimum-phase wavelet, and stationarity. Modern reflectivity inversion methods（e.g., spa... The Robinson convolution model is mainly restricted by three inappropriate assumptions, i.e., statistically white reflectivity, minimum-phase wavelet, and stationarity. Modern reflectivity inversion methods（e.g., sparsity-constrained deconvolution） generally attempt to suppress the problems associated with the first two assumptions but often ignore that seismic traces are nonstationary signals, which undermines the basic assumption of unchanging wavelet in reflectivity inversion. Through tests on reflectivity series, we confirm the effects of nonstationarity on reflectivity estimation and the loss of significant information, especially in deep layers. To overcome the problems caused by nonstationarity, we propose a nonstationary convolutional model, and then use the attenuation curve in log spectra to detect and correct the influences of nonstationarity. We use Gabor deconvolution to handle nonstationarity and sparsity-constrained deconvolution to separating reflectivity and wavelet. The combination of the two deconvolution methods effectively handles nonstationarity and greatly reduces the problems associated with the unreasonable assumptions regarding reflectivity and wavelet. Using marine seismic data, we show that correcting nonstationarity helps recover subtle reflectivity information and enhances the characterization of details with respect to the geological record. 展开更多

关键词 nonstationarity sparsity constraint impedance constraint Gabor deconvolution log time–frequency domain

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Quantitative detection of locomotive wheel polygonization under non-stationary conditions by adaptive chirp mode decomposition 被引量：1

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作者 Shiqian Chen Kaiyun Wang +3 位作者 Ziwei Zhou Yunfan Yang Zaigang Chen Wanming Zhai 《Railway Engineering Science》 2022年第2期129-147,共19页

Wheel polygonal wear is a common and severe defect,which seriously threatens the running safety and reliability of a railway vehicle especially a locomotive.Due to non-stationary running conditions(e.g.,traction and b... Wheel polygonal wear is a common and severe defect,which seriously threatens the running safety and reliability of a railway vehicle especially a locomotive.Due to non-stationary running conditions(e.g.,traction and braking)of the locomotive,the passing frequencies of a polygonal wheel will exhibit time-varying behaviors,which makes it too difficult to effectively detect the wheel defect.Moreover,most existing methods only achieve qualitative fault diagnosis and they cannot accurately identify defect levels.To address these issues,this paper reports a novel quantitative method for fault detection of wheel polygonization under non-stationary conditions based on a recently proposed adaptive chirp mode decomposition(ACMD)approach.Firstly,a coarse-to-fine method based on the time–frequency ridge detection and ACMD is developed to accurately estimate a time-varying gear meshing frequency and thus obtain a wheel rotating frequency from a vibration acceleration signal of a motor.After the rotating frequency is obtained,signal resampling and order analysis techniques are applied to an acceleration signal of an axle box to identify harmonic orders related to polygonal wear.Finally,the ACMD is combined with an inertial algorithm to estimate polygonal wear amplitudes.Not only a dynamics simulation but a field test was carried out to show that the proposed method can effectively detect both harmonic orders and their amplitudes of the wheel polygonization under non-stationary conditions. 展开更多

关键词 Wheel polygonal wear Fault diagnosis Nonstationary condition Adaptive mode decomposition time–frequency analysis

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lp norm inverse spectral decomposition and its multi-sparsity fusion interpretation 被引量：2

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作者 Li Sheng-Jun Wang Tie-Yi +3 位作者 Gao Jian-Hu Liu Bing-Yang Gui Jin-Yong Wang Hong-Qiu 《Applied Geophysics》 SCIE CSCD 2021年第4期569-578,595,共11页

Spectral decomposition has been widely used in the detection and identifi cation of underground anomalous features(such as faults,river channels,and karst caves).However,the conventional spectral decomposition method ... Spectral decomposition has been widely used in the detection and identifi cation of underground anomalous features(such as faults,river channels,and karst caves).However,the conventional spectral decomposition method is restrained by the window function,and hence,it mostly has low time–frequency focusing and resolution,thereby hampering the fi ne interpretation of seismic targets.To solve this problem,we investigated the sparse inverse spectral decomposition constrained by the lp norm(0<p≤1).Using a numerical model,we demonstrated the higher time–frequency resolution of this method and its capability for improving the seismic interpretation for thin layers.Moreover,given the actual underground geology that can be often complex,we further propose a p-norm constrained inverse spectral attribute interpretation method based on multiresolution time–frequency feature fusion.By comprehensively analyzing the time–frequency spectrum results constrained by the diff erent p-norms,we can obtain more refined interpretation results than those obtained by the traditional strategy,which incorporates a single norm constraint.Finally,the proposed strategy was applied to the processing and interpretation of actual three-dimensional seismic data for a study area covering about 230 km^(2) in western China.The results reveal that the surface water system in this area is characterized by stepwise convergence from a higher position in the north(a buried hill)toward the south and by the development of faults.We thus demonstrated that the proposed method has huge application potential in seismic interpretation. 展开更多

关键词 Spectral decomposition lp norm multiresolution time–frequency feature fusion seismic interpretation fi ne interpretation

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Prediction study of hydrocarbon reservoir based on time-frequency domain electromagnetic technique taking Ili Basin as an example 被引量：1

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作者 Tian Yu-Kun Zhou Hui +1 位作者 Ma Yan-Yan Li Juan 《Applied Geophysics》 SCIE CSCD 2020年第5期687-699,900,901,共15页

The time-frequency domain electromagnetic(TFEM)sounding technique can directly detect oil and gas characteristics through anomalies in resistivity and polarizability.In recent years,it has made some breakthroughs in h... The time-frequency domain electromagnetic(TFEM)sounding technique can directly detect oil and gas characteristics through anomalies in resistivity and polarizability.In recent years,it has made some breakthroughs in hydrocarbon detection.TFEM was applied to predict the petroliferous property of the Ili Basin.In accordance with the geological structure characteristics of the study area,a two-dimensional layered medium model was constructed and forward modeling was performed.We used the forward-modeling results to guide fi eld construction and ensure the quality of the fi eld data collection.We used the model inversion results to identify and distinguish the resolution of the geoelectric information and provide a reliable basis for data processing.On the basis of our results,key technologies such as 2D resistivity tomography imaging inversion and polarimetric constrained inversion were developed,and we obtained abundant geological and geophysical information.The characteristics of the TFEM anomalies of the hydrocarbon reservoirs in the Ili Basin were summarized through an analysis of the electrical logging data in the study area.Moreover,the oil-gas properties of the Permian and Triassic layers were predicted,and the next favorable exploration targets were optimized. 展开更多

关键词 time–frequency Domain Electromagnetic Hydrocarbon Detection Polarizability Anomaly Favorable Area Prediction

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Pseudo-Magnetotelluric 2D Inversion Technology of Magnetic-Source Transient Electromagnetics

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作者 Han Zi-qiang Jiang Shu-ping Fengbing 《Applied Geophysics》 SCIE CSCD 2020年第5期784-795,903,共13页

Based on the fact that it is diffi cult to implement optimum inversion using 2D and 3D forward modeling with magnetic-source transient electromagnetics(TEM),this paper explores a novel approach to the implementation o... Based on the fact that it is diffi cult to implement optimum inversion using 2D and 3D forward modeling with magnetic-source transient electromagnetics(TEM),this paper explores a novel approach to the implementation of 2D magnetic-source TEM inversion.In particular,we converted magnetic-source TEM data into magnetotelluric(MT)data and then used a 2D MT inversion method to implement a 2D magnetic-source TEM inversion interpretation.First,we studied the similarity between magnetic-source TEM waves and MT waves and between magnetic-source TEM all-time apparent resistivity and MT Cagniard apparent resistivity.Then,we selected an optimal time-frequency transformation coeffi cient to implement rapid time-frequency transformation of all-time TEM apparent resistivity to MT Cagniard apparent resistivity.Afterward,we conducted 1D pseudo-MT inversions of magnetic-source 1D TEM theoretical models.The 1D inversion results demonstrated that the diff erence between the inversion parameters and model parameters was small,while the MT 1D inversion method could be used to conduct magnetic 1D TEM inversion within a certain margin of error.We further conducted 2D pseudo-MT inversions of 3D magnetic-source TEM theoretical models,and the 2D inversion results indicated that selecting a joint 2D pseudo-MT transverse-electric(TE)and transverse-magnetic(TM)inversion method based on measuring the line above a 3D anomalous body can help to accurately implement a 2D inversion interpretation of the 3D TEM response. 展开更多

关键词 TEM MT All-time apparent resistivity time–frequency transformation 2D pseudo-MT inversion

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同步挤压S变换 被引量：18

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作者 黄忠来 张建中 《中国科学：信息科学》 CSCD 北大核心 2016年第5期643-650,共8页

小波变换是被广泛使用的信号时频分析的有效工具,但小波变换时频谱的分辨率达不到最优.最近提出的同步挤压变换以严格的数学推导为基础,通过对小波变换结果进行"挤压"和重排,能够获得更高分辨率的时频谱.由于小波变换难以较... 小波变换是被广泛使用的信号时频分析的有效工具,但小波变换时频谱的分辨率达不到最优.最近提出的同步挤压变换以严格的数学推导为基础,通过对小波变换结果进行"挤压"和重排,能够获得更高分辨率的时频谱.由于小波变换难以较好地反映信号中的高频低振幅分量,使得基于小波变换的同步挤压变换也很难反映信号中的高频低振幅分量.相比之下,S变换能够较好地刻画信号中的高频低振幅分量,并能实现无损逆变换,但与小波变换一样,它的时频谱分辨率也达不到最优.为了提高S变换的分辨率,本文提出了同步挤压S变换,给出了同步挤压S变换的基本理论,推导出了同步挤压S变换及其逆变换的数学表达式.分别使用小波变换、S变换、同步挤压变换和同步挤压S变换对理论合成信号进行处理.结果表明,同步挤压S变换兼顾了S变换和同步挤压变换的优势,不仅能够极大地提高信号时频变换的分辨率,而且能够较好地反映信号中弱振幅分量的时频特征. 展开更多

关键词 同步挤压S变换 同步挤压变换 S变换 小波变换 时频分析

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基于自适应VMD算法的高速铁路地震信号分析

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作者 雷洋 刘璐 +2 位作者 白文磊 冯海新 王之洋 《Applied Geophysics》 SCIE CSCD 2024年第2期358-371,421,共15页

高速铁路以确定的长度和负载在固定线路上以几乎均匀的速度长时间运行,构成了一种新的稳定且可重复的人工地震源。研究表明高速铁路地震信号具有宽频带分立谱特征。挖掘大量高速铁路地震信号中所包含的丰富信息在高速铁路运行和路基的... 高速铁路以确定的长度和负载在固定线路上以几乎均匀的速度长时间运行,构成了一种新的稳定且可重复的人工地震源。研究表明高速铁路地震信号具有宽频带分立谱特征。挖掘大量高速铁路地震信号中所包含的丰富信息在高速铁路运行和路基的安全监测方面具有重要的应用价值。然而,由于铁路网络系统周围环境的复杂性,实际采集数据中除高铁地震信号外,还包含有地球背景噪声以及各种人类活动所产生的噪声。如何提取实际记录中的高铁地震信号是有效利用该类信号的基础和关键。在本文中,我们提出了一种基于自适应变分模态分解(Variational mode decomposition,VMD)的高速铁路地震信号分离算法,将优化算法引入到变分模态分解中,利用能量差参数和样本熵构建适应度函数,实现对模态数及惩罚因子优化调整。此外,利用同步挤压小波变换(Synchrosqueezed wavelet transform,SSWT)对提取的高速铁路信号和现场数据进行时频分析。通过对模拟信号的处理验证后,应用到实际采集到的高铁地震数据进行分析处理。结果表明,该方法可以有效提取高铁地震信号,剔除其它背景噪声,为后续开展高铁地震的成像和反演提供基础。 展开更多

关键词 高铁地震信号 变分模态分解 优化算法 时频分析

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Bunch-length measurement at a bunch-by-bunch rate based on time–frequency-domain joint analysis techniques and its application

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作者 Hong-Shuang Wang Xing Yang +2 位作者 Yong-Bin Leng Yi-Mei Zhou Ji-Gang Wang 《Nuclear Science and Techniques》 SCIE EI CAS CSCD 2024年第4期165-175,共11页

This paper presents a new technique for measuring the bunch length of a high-energy electron beam at a bunch-by-bunch rate in storage rings.This technique uses the time–frequency-domain joint analysis of the bunch si... This paper presents a new technique for measuring the bunch length of a high-energy electron beam at a bunch-by-bunch rate in storage rings.This technique uses the time–frequency-domain joint analysis of the bunch signal to obtain bunch-by-bunch and turn-by-turn longitudinal parameters,such as bunch length and synchronous phase.The bunch signal is obtained using a button electrode with a bandwidth of several gigahertz.The data acquisition device was a high-speed digital oscilloscope with a sampling rate of more than 10 GS/s,and the single-shot sampling data buffer covered thousands of turns.The bunch-length and synchronous phase information were extracted via offline calculations using Python scripts.The calibration coefficient of the system was determined using a commercial streak camera.Moreover,this technique was tested on two different storage rings and successfully captured various longitudinal transient processes during the harmonic cavity debugging process at the Shanghai Synchrotron Radiation Facility(SSRF),and longitudinal instabilities were observed during the single-bunch accumulation process at Hefei Light Source(HLS).For Gaussian-distribution bunches,the uncertainty of the bunch phase obtained using this technique was better than 0.2 ps,and the bunch-length uncertainty was better than 1 ps.The dynamic range exceeded 10 ms.This technology is a powerful and versatile beam diagnostic tool that can be conveniently deployed in high-energy electron storage rings. 展开更多

关键词 Bunch-by-bunch diagnostic Bunch-length measurement Synchronous phase measurement Joint time–frequency-domain analysis Longitudinal instability

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非线性调频分量分解的转子油膜涡动信号分析研究 被引量：5

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作者 李玲玲 陈是扦 彭志科 《噪声与振动控制》 CSCD 2017年第5期6-12,共7页

转子轴承系统的振动信号常呈现非线性调频特征且信号分量在频域混叠,传统的频谱分析方法难以处理该类信号。基于参数化解调的非线性调频信号分解方法来分析油膜涡动、油膜振荡特征信号能够有效分解频域混叠的非平稳信号。首先通过优化... 转子轴承系统的振动信号常呈现非线性调频特征且信号分量在频域混叠,传统的频谱分析方法难以处理该类信号。基于参数化解调的非线性调频信号分解方法来分析油膜涡动、油膜振荡特征信号能够有效分解频域混叠的非平稳信号。首先通过优化频谱集中性指标来估计信号瞬时频率参数并用估计到的参数将非线性调频信号解调为平稳信号,最后用带通滤波器提取解调信号。仿真及实验信号通过该方法分析后的结果证明,所用非线性调频分量分解的信号分解方法能够有效提取转子轴承系统的油膜涡动、油膜振荡故障特征,从信号时频图及提取分量的时域图可以清晰看到油膜涡动、油膜振荡的发生发展过程,为早期油膜涡动判定提供依据。 展开更多

关键词 振动与波 旋转机械 故障诊断 油膜涡动 时频分析 信号分解

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心音自动分段算法及两种时频分析方法的对比

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作者 刘丽萍 袁刚 《南阳理工学院学报》 2016年第4期48-53,共6页

本文提出了一种不借助参考信号的定位方法实现心音信号的定位分段算法,首先使用归一化香农能量算法得到心音信号的包络图,然后通过包络和心音自身特性进行定位,S1的终止点、S2的起始点与终止点是依据心音周期的长度来计算,具有良好的自... 本文提出了一种不借助参考信号的定位方法实现心音信号的定位分段算法,首先使用归一化香农能量算法得到心音信号的包络图,然后通过包络和心音自身特性进行定位,S1的终止点、S2的起始点与终止点是依据心音周期的长度来计算,具有良好的自适应性,正常人的识别准确率较高,能达到93.6%,而异常人的稍微低一些,在89%左右。应用了STFT、Choi-Williams分布这两种时频分析法来对比正常和异常人的心音信号之间的差别,从时频等高线图来区分正常和异常信号的直观性说,Choi-Williams分布优于STFT分布。 展开更多

关键词 包络 自动分段 时频分析

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