Application of support vector machine algorithm for early differential diagnosis of prostate cancer

Prostate cancer(PCa)symptoms are commonly confused with benign prostate hyperplasia(BPH),particularly in the early stages due to similarities between symptoms,and in some instances,underdiagnoses.Clinical methods have been utilized to diagnose PCa;however,at the full-blown stage,clinical methods usually present high risks of complicated side effects.Therefore,we proposed the use of support vector machine for early differential diagnosis of PCa(SVM-PCa-EDD).SVM was used to classify persons with and without PCa.We used the PCa dataset from the Kaggle Healthcare repository to develop and validate SVM model for classification.The PCa dataset consisted of 250 features and one class of features.Attributes considered in this study were age,body mass index(BMI),race,family history,obesity,trouble urinating,urine stream force,blood in semen,bone pain,and erectile dysfunction.The SVM-PCa-EDD was used for preprocessing the PCa dataset,specifically dealing with class imbalance,and for dimensionality reduction.After eliminating class imbalance,the area under the receiver operating characteristic(ROC)curve(AUC)of the logistic regression(LR)model trained with the downsampled dataset was 58.4%,whereas that of the AUC-ROC of LR trained with the class imbalance dataset was 54.3%.The SVM-PCa-EDD achieved 90%accuracy,80%sensitivity,and 80%specificity.The validation of SVM-PCa-EDD using random forest and LR showed that SVM-PCa-EDD performed better in early differential diagnosis of PCa.The proposed model can assist medical experts in early diagnosis of PCa,particularly in resource-constrained healthcare settings and making further recommendations for PCa testing and treatment.

Continuous prediction method of earthquake early warning magnitude for high-speed railway based on support vector machine

Purpose–Using the strong motion data ofK-net in Japan,the continuous magnitude prediction method based on support vector machine(SVM)was studied.Design/methodology/approach–In the range of 0.5–10.0 s after the P-wave arrival,the prediction time window was established at an interval of 0.5 s.12 P-wave characteristic parameters were selected as the model input parameters to construct the earthquake early warning(EEW)magnitude prediction model(SVM-HRM)for high-speed railway based on SVM.Findings–The magnitude prediction results of the SVM-HRM model were compared with the traditional magnitude prediction model and the high-speed railway EEW current norm.Results show that at the 3.0 s time window,themagnitude prediction error of the SVM-HRMmodel is obviously smaller than that of the traditionalτc method and Pd method.The overestimation of small earthquakes is obviously improved,and the construction of the model is not affected by epicenter distance,so it has generalization performance.For earthquake events with themagnitude range of 3–5,the single station realization rate of the SVM-HRMmodel reaches 95%at 0.5 s after the arrival of P-wave,which is better than the first alarm realization rate norm required by“The TestMethod of EEW andMonitoring Systemfor High-Speed Railway.”For earthquake eventswithmagnitudes ranging from3 to 5,5 to 7 and 7 to 8,the single station realization rate of the SVM-HRM model is at 0.5 s,1.5 s and 0.5 s after the P-wave arrival,respectively,which is better than the realization rate norm of multiple stations.Originality/value–At the latest,1.5 s after the P-wave arrival,the SVM-HRM model can issue the first earthquake alarm that meets the norm of magnitude prediction realization rate,which meets the accuracy and continuity requirements of high-speed railway EEW magnitude prediction.

Casing life prediction using Borda and support vector machine methods

Eight casing failure modes and 32 risk factors in oil and gas wells are given in this paper. According to the quantitative analysis of the influence degree and occurrence probability of risk factors, the Borda counts for failure modes are obtained with the Borda method. The risk indexes of failure modes are derived from the Borda matrix. Based on the support vector machine （SVM）, a casing life prediction model is established. In the prediction model, eight risk indexes are defined as input vectors and casing life is defined as the output vector. The ideal model parameters are determined with the training set from 19 wells with casing failure. The casing life prediction software is developed with the SVM model as a predictor. The residual life of 60 wells with casing failure is predicted with the software, and then compared with the actual casing life. The comparison results show that the casing life prediction software with the SVM model has high accuracy.

基于EMD分量与小波包能量熵的轧辊磨削颤振在线预测

针对轧辊磨削颤振时的时频域单一处理方法存在部分特征丢失的问题,提出了时频域相结合的方法对信号进行特征处理,并利用智能算法实现轧辊磨削颤振的在线预测。首先,利用经验模态分解(empirical mode decomposition,EMD)方法对振动传感器信号进行分解获得各固有模态函数(intrinsic mode function,IMF),剔除“虚假分量”后计算表征轧辊磨削颤振的时域特征。然后,利用小波包能量熵对声发射传感器信号求解频率段节点能量熵值,获得表征轧辊磨削颤振的频域特征。最后,将上述时频域特征降维后代入智能算法模型实现对轧辊磨削加工的在线预测。结果表明:LV-SVM模型的磨削颤振分类平均准确率达92.75%,模型平均响应时间为0.7765 s;验证了时频域特性的EMD和小波包能量熵方法的LV-SVM在线预测轧辊磨削颤振的有效性。

一种改善EMD端点效应的新方法及其在谐波分析中的应用

为了改善经验模态分解(EMD)过程中产生的端点效应,本文提出一种基于支持向量机和镜像延拓相结合的新方法对短时间序列进行延拓。首先应用支持向量机(SVM)对原始信号两端分别延拓一个极大值和一个极小值,再用带镜像延拓程序的EMD方法对延拓后的信号进行边分解边延拓,逐渐抛弃受"污染"的点,得到具有原始信号长度的固有模态函数(IMF)。本文将该方法应用于电力系统的谐波分析中,仿真结果表明该方法能有效抑制EMD方法的端点效应,可以得到效果更好的单分量谐波信号。

EMD在广西季节降水预报中的应用

气候系统是一种耗散的、具有多个不稳定源的非线性、非平稳系统。该文利用支持向量机(SVM)算法在处理非线性问题中的优越性和经验模态分解(EMD)算法在处理非平稳信号中的优势,采用将EMD与SVM相结合的短期气候预测方法,并应用到广西季节降水预报中。选取广西88个气象观测站1957—2005年6—8月逐年降水量的距平百分率序列作为试验数据,通过EMD算法将标准化处理后的距平百分率序列分解成多个本征模态函数(IMF)分量和一个趋势分量,在分解中针对EMD算法存在的端点极值问题选择两种方法分别进行处理,对比得出极值延拓法效果更好。对每个分量构建不同的SVM模型进行预测,并通过重构形成最后的预测结果。试验中采用不经EMD处理的反向传播(BP)神经网络和SVM算法进行对比验证,结果表明:相对于直接预测方法,该文提出的方案均方误差最小,能够较为准确地反映出降水序列未来几年的变化趋势,具有更高的预测精度和较好的推广前景。

振动信号中HHT/EMD端点延拓方法研究

针对振动信号中Hilbert-Huang变换的端点效应问题,结合端点效应产生机理和现有研究成果,提出基于时间尺度的LS-SVM端点延拓的抑制端点效应新方法。首先利用LS-SVM回归特性和一种自适应预测法分别对信号极值点的幅值和时间点进行预测延拓,然后对预测的极值信息进行埃尔米特插值,完成对原信号的延拓。利用仿真信号和实测航空发动机振动信号进行分析验证,表明该方法可同时有效抑制两种端点效应,并具有预测精度高、有效延拓距离长、速度快的特点。

基于EMD-PSO-SVM的煤矿瓦斯涌出量预测方法及应用

为分析煤矿瓦斯涌出的非线性特性和准确预测瓦斯涌出量,基于经验模态分解(EMD)、支持向量机(SVM)和粒子群优化算法(PSO)的基本原理,建立预测瓦斯涌出量的EMD-PSO-SVM方法。分解瓦斯涌出时序数据,获得多个本征模态函数(IMF);对每个IMF分别建立PSO-SVM预测模型;累加各IMF预测值,获得瓦斯涌出量预测结果。以某矿2344回采工作面为例,分别运用EMDPSO-SVM和PSO-SVM方法预测瓦斯涌出量,EMD-PSO-SVM预测精度较高,累加合成后的预测结果相对误差在±0.80%以内,平均相对误差为0.2445%;而未进行EMD的PSO-SVM方法预测平均相对误差为5.0019%。结果表明:PSO-SVM对平稳时间序列有较高预测精度,预测误差随振动周期增长和振幅减小而降低,EMD-PSO-SVM方法对非平稳时间序列预测有较强的适用性。

基于EMD和SVM的脑电信号处理方法

脑电信号的特征提取对于脑—机接口(BCI)技术来说非常重要。本文使用经验模式分解(EMD)算法对脑电信号进行分解,提取主要IMF分量的特征值,之后使用支持向量机进行分类,并采用启发算法(POS)进行参数寻优.对2003年第二届BCI大赛的想象左右手运动脑电信号分类正确率达到87.6%,验证了本方法的可行性.

基于EMD的声纹特征参数提取

提出了一种新的结合支持向量机(SVM)、经验模态分解(EMD)和短时处理技术的声纹识别方法,将EMD分解和短时处理技术相结合提取特征参数,采用SVM实现声纹识别.实验结果表明,所提出的方法比传统的短时分析+GMM方法在识别率上由92.5%提高到了95.1%.

基于EMD和AR奇异值的柴油机故障诊断

针对柴油机振动信号的非平稳特性和在现实条件下难以获取大量故障样本的实际情况,提出一种经验模态分解(Empirical Mode Decomposition,EMD)、自回归(Auto Regression,AR)模型和支持向量机(Support Vector Machine,SVM)相结合的柴油机故障诊断方法。运用经验模态分解方法对柴油机失火及气阀机构不同工况下的缸盖振动信号进行分析,计算各个内禀模态函数(Intrinsic ModeFunctions,IMF)的AR模型参数向量以此组成初始特征向量矩阵,再计算此初始特征向量矩阵的奇异值,并将其作为支持向量机的输入特征向量以判断柴油机的工作状态和故障类型。试验结果表明:该方法在小样本情况下也具有较高的精度和较强的泛化能力。

基于EMD和SVM的农用柴油机故障诊断研究

针对农用柴油机振动信号的非平稳特性和在现实条件下难以获得大量故障样本的实际情况,提出一种经验模态分解和支持向量机相结合的故障诊断方法。运用经验模态分解方法对气阀机构不同工况下的去噪缸盖振动信号进行分析,计算各内禀模态函数与去噪信号的互信息值以确定主IMF分量,并求其包含时间信息的能量熵以定量描述信号不同时频段的能量分布,将其作为支持向量机的输入特征向量以判断柴油机的工作状态和故障类型。试验结果表明,该方法在小样本情况下也具有较高的精度和较强的泛化能力,但不同转速时需重新采样以保证充足的诊断精度。

基于EMD奇异值熵和GASVM的转子系统故障诊断方法

提出一种基于经验模态分解(EMD)和奇异值熵的转子系统故障特征提取方法,克服了奇异值分解相空间重构参数难以选择的问题。然后将奇异值和奇异值熵作为故障特征输入到支持向量机(SVM)中,利用遗传算法(GA)对支持向量机进行参数优化,实现了故障的精确诊断。最后通过对转子不平衡、碰摩和不平衡-碰摩耦合3种故障的正确诊断,证明该方法的有效性。

基于EMD近似熵和LS-SVM的机械故障智能诊断

故障特征提取的精确性和分类识别的高效率是提高故障诊断准确率和速度的关键,针对此问题,提出一种基于经验模式分解(empirical mode decomposition,EMD)近似熵和最小二乘支持向量机(least square support vector machine,LS-SVM)的机械故障诊断新方法。利用EMD良好的局域化特性和近似熵表征信号复杂性规律来量化故障特征,再与LS-SVM相结合进行故障类型识别。首先,对故障振动信号进行EMD分解,得到若干个反映故障信息的本征模函数(intrinsic mode function,IMF);其次,选取前4个IMF的近似熵值作为信号的特征向量;最后将构造的特征向量输入到LS-SVM分类器进行故障类型识别。仿真表明,该方法能有效地提取故障特征,与传统的BP(back propagation)网络相比,具有训练样本少、训练时间短、识别率高等优点。

基于EMD和LS-SVM的非平稳振动信号趋势预测

镇动信号的趋势预测是设备状态监测与故障诊断中的一个重要内容。随着运行设备的非线性、非平稳特点越来越明显,传统的数学建摸预报方法已不能满足设备的复杂化和现代化要求。提出了一种基于经验模式分解EMD(Empirical Mode Decompo-sition)和最小二乘支持向量机LS-SVM(Least Square Support Vector Machine)的新模型。首先,运用EMD将趋势时间序列自适应地分解成一系列不同尺度的本征模式分量IMF(intrinsicmode function);其次,对每个本征模式分量,采用合适的核函数和超参数构造不同的LS-SVM进行预测;最后对各分量的预测值进行拟合得到最终的预测值。仿真实验表明,此方法与单一的LS-SVM预测法相比,具有较高的精度和较强的推广能力。

基于EMD-PCA-LSSVM方法的滚动轴承安全域估计和状态辨识

将安全域的思想引入滚动轴承的状态监测中,综合利用经验模式分解(EMD)、主成分分析(PCA)和最小二乘支持向量机(LSSVM),进行了滚动轴承运行状态的安全域估计以及正常和各种故障状态的辨识。首先,按一定的时间间隔将采集的振动数据分段,每段数据进行EMD后获得各本征模函数(IMF)分量;其次,基于各段数据的本征模函数分量,利用主成分分析方法提取出每段数据的T^2统计量和平方预估误差(SPE)统计量控制限值作为滚动轴承的状态特征量;最后,利用二分类的LSSVM进行滚动轴承运行状态的安全域估计,利用多分类的LSSVM进行滚动轴承的正常以及滚动体故障、内圈故障、外圈故障四种状态的辨识。试验结果显示安全域估计准确率和多种状态辨识正确率均大于95%,验证了上述方法的有效性。

基于声发射信号EMD-WPD特征融合的航天器在轨泄漏辨识方法

长期运行在空间环境中的航天器可能由于撞击、振动、老化等因素而发生气体泄漏,在轨泄漏辨识对航天器安全保障具有重要意义。提出了一种基于声发射信号经验模态分解(empirical mode decomposition,EMD)和小波包分解(wavelet packet decomposition,WPD)特征融合的航天器泄漏辨识方法,首先将声发射信号分别通过EMD和WPD分解成为不同频率范围内的子带信号,考虑能量特征误差与不稳定性,提取信号无量纲因子和频率特征参数并应用Relief F算法选取特征。最后,构建支持向量机(support vector machines,SVM)机器学习数据库,训练泄漏分类模型并利用测试集交叉验证模型分类精度。结果表明,EMD和WPD分解特征并行融合分类模型可显著提高辨识精度,最高可达96.9%,且输入特征数量少,是一种具有应用前景的航天器在轨气体泄漏辨识方法。

基于小波降噪和EMD-SVM的加工中心主轴系统状态监测技术

主轴系统是数控机床的重要功能部件,其运行状态直接影响机床的可靠性与加工精度。为了实现状态实时监测、故障预警和维修策略优化,针对加工中心主轴系统,设计了状态监测方案,研制和搭建了加工中心状态监测平台的硬件系统和软件系统。集成小波降噪方法和经验模态分解-支持向量机(EMD-SVM)算法对采集信号处理与分析,实现加工中心主轴系统的状态实时监测,进而对主轴系统典型故障状态进行识别与诊断。基于研制的加工中心主轴状态监测系统,进行了主轴系统皮带松动故障监测试验分析,验证其对主轴系统的典型故障状态识别的准确度。

Joint application of feature extraction based on EMD-AR strategy and multi-class classifier based on LS-SVM in EMG motion classification

This paper presents an effective and efficient combination of feature extraction and multi-class classifier for motion classification by analyzing the surface electromyografic(sEMG) signals. In contrast to the existing methods,considering the non-stationary and nonlinear characteristics of EMG signals,to get the more separable feature set,we introduce the empirical mode decomposition(EMD) to decompose the original EMG signals into several intrinsic mode functions(IMFs) and then compute the coefficients of autoregressive models of each IMF to form the feature set. Based on the least squares support vector machines(LS-SVMs) ,the multi-class classifier is designed and constructed to classify various motions. The results of contrastive experiments showed that the accuracy of motion recognition is improved with the described classification scheme. Furthermore,compared with other classifiers using different features,the excellent performance indicated the potential of the SVM techniques embedding the EMD-AR kernel in motion classification.

基于EMD与AR模型的柴油机故障诊断

采用经验模式分解(EMD)方法对振动信号进行分解,得到固有模态函数(IMF),对每一个IMF分量分别建立AR模型,以模型的自回归参数和残差的方差作为特征向量,用支持向量机(SVM)进行分类,判断柴油机的工作状态和故障类型。实验结果分析表明,该方法即使在小样本情况下也能准确有效地诊断柴油机故障,能实现故障的实时自动化诊断。在不同转速时,需选用新转速工况下的数据作为训练样本,以保证分类准确率。