Fault detection of excavator’s hydraulic system based on dynamic principal component analysis

In order to improve reliability of the excavator's hydraulic system, a fault detection approach based on dynamic principal component analysis(PCA) was proposed. Dynamic PCA is an extension of PCA, which can effectively extract the dynamic relations among process variables. With this approach, normal samples were used as training data to develop a dynamic PCA model in the first step. Secondly, the dynamic PCA model decomposed the testing data into projections to the principal component subspace(PCS) and residual subspace(RS). Thirdly, T2 statistic and Q statistic performed as indexes of fault detection in PCS and RS, respectively. Several simulated faults were introduced to validate the approach. The results show that the dynamic PCA model developed is able to detect overall faults by using T2 statistic and Q statistic. By simulation analysis, the proposed approach achieves an accuracy of 95% for 20 test sample sets, which shows that the fault detection approach can be effectively applied to the excavator's hydraulic system.

Multivariate Statistical Process Monitoring of an Industrial Polypropylene Catalyzer Reactor with Component Analysis and Kernel Density Estimation

Abstract Data-driven tools, such as principal component analysis （PCA） and independent component analysis （ICA） have been applied to different benchmarks as process monitoring methods. The difference between the two methods is that the components of PCA are still dependent while ICA has no orthogonality constraint and its latentvariables are independent. Process monitoring with PCA often supposes that process data or principal components is Gaussian distribution. However, this kind of constraint cannot be satisfied by several practical processes. To ex-tend the use of PCA, a nonparametric method is added to PCA to overcome the difficulty, and kernel density estimation （KDE） is rather a good choice. Though ICA is based on non-Gaussian distribution intormation, .KDE can help in the close monitoring of the data. Methods, such as PCA, ICA, PCA.with .KDE（KPCA）, and ICA with KDE,（KICA）, are demonstrated and. compared by applying them to a practical industnal Spheripol craft polypropylene catalyzer reactor instead of a laboratory emulator.

电化学加工表面均匀性的多变量统计过程控制

零件表面粗糙度对其使用性能有重要影响。为了解决零件表面单一粗糙度参数不能全面反映零件加工表面缺陷的问题,提出一种将基于相关性分析和主元分析的多变量统计过程控制应用于电化学光整加工零件表面均匀性评价的方法。设计无表面缺陷和有表面缺陷两个样件进行对比实验,在电化学光整加工之后记录两个样件的多项表面粗糙度参数,先进行多个参数的单变量统计过程控制,再对多个粗糙度参数进行相关性分析和主元分析,得到综合评价值绘制统计控制图。对比分析结果表明:对于存在局部缺陷的表面,相比单一粗糙度参数,采用综合评价控制图检测零件表面缺陷更准确;基于相关性分析和主元分析的多变量统计过程控制是评价电化学光整加工零件表面均匀性的有效方法。

Joint multivariate statistical model and its applications to synthetic earthquake predic-tion

针对目前地震综合预报中的一些问题，利用近30年来迅速发展的多元统计分析中主成分分析、判别分析组成多元统计组合模型，在众多的地震预报指标(预报因子)中采用信息最大化方法，选择对中期预测信息累积贡献率大于90％地震预报指标，分别进行相关分析、预测、检验，最终应用马氏距离判别作外推综合预报；并以华北地区(30°～42°N，108°125°E)为例进行模型的应用检验，初步研究已取得了较好的效果．

多元统计分析技术在市售纯生啤酒一致性研究中的应用

目的研究不同品牌和不同工厂市售纯生啤酒特征和产品质量一致性。方法以国内3个品牌共计9个工厂1年内生产的不同批次纯生啤酒为研究对象,采用气相色谱法测定啤酒的风味代谢产物并由国家级专业评酒委员进行样品感官评价分析,以多元统计分析方法中的主成分分析(principal component analysis,PCA)、聚类分析(cluster analysis,CA)研究不同品牌纯生啤酒一年内生产的不同批次之间的产品特质和一致性。结果研究结果显示3个品牌之间风味代谢物差异不大,感官评价分析差异较大,B品牌一致性最差,A品牌次之,C品牌最好。B品牌出现日光臭比率为19.4%,出现均值0.18以上纸板味的比率为48.4%,缺陷量级为专业级国家评委可感知,普通消费者难以察觉,国内纯生啤酒风味评价良好。结论多元统计分析方法可用于产品质量一致性评价,不论是生产过程中的麦汁、发酵液等半成品还是啤酒成品控制中都能够发挥一定作用,这些工具的运用可提升啤酒企业的产品质量一致性。

多变量统计过程控制技术在药品生产过程中的应用

介绍了多变量统计过程控制(multivariate statistical process control,MSPC)的基本概念和有关背景。描述了MSPC实施的基本流程以及常用统计量与控制图。强调了MSPC在药品生产过程中的重要作用,特别是中药领域,为药品生产过程质量控制方法的选择提供参考。总结了MSPC的优势和不足,并展望了MSPC在药品生产和质量控制方面的发展趋势。

基于PCA的Fisher多元统计方法识别矿井充水水源

采煤工作面回采过程中充水水源的多源不确定性是矿井水害防治的研究重点,采用水化学信息识别充水水源时,常难以明确界定各充水水源的特征型水质阈值,且现有大多数分析判别方法判别精度不高。基于现场采集的马脊梁煤矿8210工作面矿井涌水可能充水水源样本建立样本数据库,采用Piper三线图法和多因子法分析各充水水源的水质类型及训练样本数据库,建立了基于主成分分析的Fisher判别模型,并根据欧氏距离判别原则分析识别采空区涌水的充水水源。结果表明,充水水源主要为侏罗系采空积水,其次为底板灰岩水和顶板砂岩水;该判别模型判别精度可以达到99.9%,对于采煤工作面矿井涌水充水水源的现场识别具有重要指导意义。

Multivariate Statistical Process Monitoring and Control: Recent Developments and Applications to Chemical Industry

Multivariate statistical process monitoring and control (MSPM&C) methods for chemical process monitoring with statistical projection techniques such as principal component analysis (PCA) and partial least squares (PLS) are surveyed in this paper. The four-step procedure of performing MSPM&C for chemical process, modeling of processes, detecting abnormal events or faults, identifying the variable(s) responsible for the faults and diagnosing the source cause for the abnormal behavior, is analyzed. Several main research directions of MSPM&C reported in the literature are discussed, such as multi-way principal component analysis (MPCA) for batch process, statistical monitoring and control for nonlinear process, dynamic PCA and dynamic PLS, and on-line quality control by inferential models. Industrial applications of MSPM&C to several typical chemical processes, such as chemical reactor, distillation column, polymerization process, petroleum refinery units, are summarized. Finally, some concluding remarks and future considerations are made.

Application of multivariate statistical techniques in assessment of surface water quality in Second Songhua River basin,China

Multivariate statistical techniques,such as cluster analysis(CA),discriminant analysis(DA),principal component analysis(PCA) and factor analysis(FA),were applied to evaluate and interpret the surface water quality data sets of the Second Songhua River(SSHR) basin in China,obtained during two years(2012-2013) of monitoring of 10 physicochemical parameters at 15 different sites.The results showed that most of physicochemical parameters varied significantly among the sampling sites.Three significant groups,highly polluted(HP),moderately polluted(MP) and less polluted(LP),of sampling sites were obtained through Hierarchical agglomerative CA on the basis of similarity of water quality characteristics.DA identified p H,F,DO,NH3-N,COD and VPhs were the most important parameters contributing to spatial variations of surface water quality.However,DA did not give a considerable data reduction(40% reduction).PCA/FA resulted in three,three and four latent factors explaining 70%,62% and 71% of the total variance in water quality data sets of HP,MP and LP regions,respectively.FA revealed that the SSHR water chemistry was strongly affected by anthropogenic activities(point sources:industrial effluents and wastewater treatment plants;non-point sources:domestic sewage,livestock operations and agricultural activities) and natural processes(seasonal effect,and natural inputs).PCA/FA in the whole basin showed the best results for data reduction because it used only two parameters(about 80% reduction) as the most important parameters to explain 72% of the data variation.Thus,this work illustrated the utility of multivariate statistical techniques for analysis and interpretation of datasets and,in water quality assessment,identification of pollution sources/factors and understanding spatial variations in water quality for effective stream water quality management.

Joint multivariate statistical model and its applications to the synthetic earthquake prediction

Considering the problems that should be solved in the synthetic earthquake prediction at present, a new model is proposed in the paper. It is called joint multivariate statistical model combined by principal component analysis with discriminatory analysis. Principal component analysis and discriminatory analysis are very important theories in multivariate statistical analysis that has developed quickly in the late thirty years. By means of maximization information method, we choose several earthquake prediction factors whose cumulative proportions of total sam-ple variances are beyond 90% from numerous earthquake prediction factors. The paper applies regression analysis and Mahalanobis discrimination to extrapolating synthetic prediction. Furthermore, we use this model to charac-terize and predict earthquakes in North China (30~42N, 108~125E) and better prediction results are obtained.

基于指纹图谱对五味子不同炮制品差异性研究

目的 分析五味子及不同炮制品炮制后化学成分差异,为五味子不同炮制品的整体质量控制提供依据。方法 建立生五味子、醋五味子、酒五味子指纹图谱,进行相似度评价,同时进行主成分分析(PCA分析)及正交偏最小二乘法判别分析(OPLS-DA分析),结合网络药理学分析探讨差异成分对应的靶点和通路。结果 建立的指纹图谱中成功指认出21个共有峰,其中4个峰分别被指认为五味子醇甲、五味子酯甲、五味子甲素和五味子乙素;相似度结果显示,五味子不同炮制品指纹图谱与各自对照图谱的相似度在0.907~0.999。PCA和OPLS-DA结果表明,五味子不同炮制方法对五味子活性成分的含量变化有一定的影响。网络药理学分析表明,指认出的色谱峰与五味子的主要药理作用密切相关。结论 所建立的指纹图谱方法精密度、重复性、稳定性良好,结合多元统计方法和网络药理学分析,为五味子及其炮制品质量标准评价提供了科学依据。

普通小麦种子活力综合评价方法研究

分析不同小麦品种种子活力的相关指标,建立可靠的小麦种子活力综合评价模型,有助于选育高活力小麦品种。将104份小麦材料自然老化6个月后,进行标准发芽试验8 d,测定发芽势(X1)、发芽率(X2)、发芽指数(X3)、苗高(X4)、苗鲜重(X5)、根鲜重(X6)、根表面积(X7)、根平均直径(X8)、总根长(X9)和根系总体积(X10);采用多样性统计、相关性分析、聚类分析、主成分分析和隶属函数法对小麦种子活力进行综合评价。结果表明种子活力多数指标间呈显著相关性,存在信息重叠。利用隶属函数值法计算种子活力的综合评价值(D值),将104份材料分为高活力、较高活力、中活力和低活力4个等级,其中高活力材料4份。通过逐步回归方程建立了小麦种子活力综合评价方法的数学评价模型:VP=﹣0.171﹣0.025 X1﹣0.074 X2+0.012 X4+1.923 X5+1.650 X6+0.004 X7+0.236 X8+0.048 X10(R2=0.999)。利用建立的最优回归方程预测供试材料的活力,预测值(VP)与D值达到0.001水平的极显著正相关。结果表明在筛选高活力品种时可以忽视发芽指数和总根长,重视发芽势、发芽率、苗高、苗鲜重、根鲜重、根表面积、根平均直径和根系总体积,并且这种综合评价方式更加精准有效。

小麦籽粒均匀度评价方法研究

为了筛选小麦的均匀度鉴定指标,建立可靠的均匀度评价模型,本研究以150份小麦为试验材料,测定其在两个环境下的籽粒形态指标:粒长(X1)、粒宽(X2)、直径(X3)、圆度(X4)、长宽比(X5)、周长(X6)、表面积(X7)及千粒重(X8),采用多样性统计、相关性分析、聚类分析、主成分分析和隶属函数法对小麦籽粒均匀度进行综合评价。结果表明,两种环境下籽粒各指标变异幅度为3.56%~9.88%;可将150份小麦材料聚类为4个类群。主成分分析可将8个指标转化为两个相互独立的综合指标,其贡献率分别为61.330%、36.448%,代表全部数据97.778%的信息量。利用隶属函数法计算籽粒均匀度综合评价值(D值),将150份材料分为超高均匀度材料(12份)、高均匀度材料(80份)、中均匀度材料(56份)和低均匀度材料(2份)。通过逐步回归方程建立了小麦籽粒均匀度的数学评价模型:VP=-2.787+0.294 X2+0.007 X8+0.246 X3+0.869 X4-0.178 X5+0.026 X6+0.019 X7(R2=0.999),利用建立的最优回归方程预测供试材料的均匀度,预测值(VP)与D值呈极显著正相关(P<0.01),综上表明在筛选高均匀度材料时可以忽视粒长,重视粒宽、直径、圆度、长宽比、周长和表面积。本研究明确了小麦籽粒均匀度的影响因素,丰富了小麦籽粒均匀度评价方法,为后续育种家选育高均匀度材料提供了理论支撑。

基于灰色关联度分析法和主成分分析法对泥页岩储层评价方法的探讨

泥页岩储层的影响因素众多,明确各因素间的内部联系才能更好地评价储层。为对比灰色关联法和主成分分析法在储层评价中的适用性,本文选取鄂尔多斯盆地东缘上古生界Y88井丰富的储层数据进行分析。通过对比两种多元统计方法的原理、算法和结果,认为主成分分析法把各项因子视为离散变量,通过降维后用三个综合评价指标来反映储层的优劣,是对各项指标的概括性分析;灰色关联法将参数分为参考数据列和比较数据列,参考数据列的有机碳含量高低与储层的优劣成正相关,参考数据列对评价对象具有可测性。因此,若是对评价对象的概括性分析,用主成分分析法比较合适;若是对评价对象的可测性分析,如有机碳含量的高低决定能不能形成泥页岩储层,则用灰色关联法评价更合理。

不同炮制方法黄精的红外光谱鉴别研究

利用傅里叶变换红外(FTIR)光谱和多元统计分析对黄精及其不同炮制品进行分析研究。实验共采集贵州凯里出产的生黄精、酒黄精、蒸黄精104个样品,分析各自的FTIR光谱特征。运用自动基线校正、标准正态变量变换(SNV)、多元散射校正(MSC)、正交信号校正(OSC)、Savitzky-Golay导数、Savitzky-Golay卷积平滑等方法对光谱进行预处理。通过建立偏最小二乘(PLS)模型和支持向量机非线性分类(SVC)模型来探索最佳数据预处理方法。选择最佳组合的预处理方法处理光谱数据,建立主成分分析(PCA)模型和偏最小二乘判别分析(PLS-DA)模型来验证其分类鉴别效果。结果显示,该方法可对三种黄精样品进行准确分类,可以用于黄精炮制品的快速鉴别。

应用多元统计法评价吉安市饮用水源地水质及污染源解析

为科学评价吉安市18个城市水源地的水质状况以及污染来源,以赣江中游水文水资源监测中心2021年监测数据为依据,采用单因子评价法、相关性分析、主成分分析,进行了水质分析及污染源解析。研究结果表明:(1)赣江中游流域水质整体较好。基于2021年均值,水质整体上维持在Ⅱ~Ⅲ类。(2)根据主成分分析得出2个主成分,第一主成分中水体主要污染物为有机物,第二主成分主要与水体富营养化污染有关。(3)从区域看,赣江干流水质要优于支流水质,赣江吉安河段上游水质要优于中下游。这表明河流水质与河流流量的大小和人类生产活动关系密切,这可能是受河流自净和人为因素的共同影响作用的结果。基于以上结果,建议后期继续加强水源地水质保护和控制本流域内面源和点源污染。

数学成绩和专业课成绩的相关性分析

文章研究了在工科专业背景下数学成绩与专业课成绩之间的相关性.文章选取了工科大学生作为样本,获取数学成绩和专业课成绩等信息,并进行了数据清洗,运用主成分分析、因子分析等方法,研究相关性及其影响因素.实验结果表明,专业课成绩与数学成绩的高低有着紧密的联系,数学成绩较好的学生,其专业课成绩也相对较好;数学成绩较差的学生,其专业课成绩也不理想,甚至会出现挂科.所以,数学成绩可以作为一个较好的参考因素,帮助对学生进行评估.

多元统计性能监视和故障诊断技术研究进展

综述了多元统计分析方法在线性、非线性、多尺度领域中的理论研究进展 .分析和总结了连续生产过程和批量间歇生产过程性能监视和故障诊断的应用情况 .

间歇过程的统计建模与在线监测

现代过程工业正逐渐倚重于生产小批量、多品种、高附加值产品的间歇过程．基于多元统计模型的过程监测是保障生产安全和产品质量的重要工具．从间歇过程独特的数据特性出发,将现有的多元统计建模方法进行合理的分类,简要回顾了各类方法的起源、发展及延伸的历程．除了阐述每种方法的基本原理,还详细讨论了各种方法的适用背景,相互关联及优缺点等内容,并对这一领域中依然存在的问题以及研究前景给出中肯的评述．

非线性主元分析故障检测和诊断方法及应用

本文针对间歇生产过程的特点 ,基于多方向主元分析方法 (MPCA)和非线性理论 ,提出了一种非线性多元统计分析方法——最小窗口方法 ,该方法突破了 MPCA方法单模型、线性化的建模方式 ,创新性地构造了适合间歇生产过程特点的多模型结构非线性建模方法 ,并侧重于在线间歇过程性能监视和故障诊断的实时性 ,消除了预报未来测量值带来的误差 ,提高了过程性能监视和故障诊断的准确率 .本文详细地讨论了最小窗口 PCA建模方法、原理、应用实例 .