Ensemble Nonlinear Support Vector Machine Approach for Predicting Chronic Kidney Diseases

Urban living in large modern cities exerts considerable adverse effectson health and thus increases the risk of contracting several chronic kidney diseases (CKD). The prediction of CKDs has become a major task in urbanizedcountries. The primary objective of this work is to introduce and develop predictive analytics for predicting CKDs. However, prediction of huge samples isbecoming increasingly difficult. Meanwhile, MapReduce provides a feasible framework for programming predictive algorithms with map and reduce functions.The relatively simple programming interface helps solve problems in the scalability and efficiency of predictive learning algorithms. In the proposed work, theiterative weighted map reduce framework is introduced for the effective management of large dataset samples. A binary classification problem is formulated usingensemble nonlinear support vector machines and random forests. Thus, instead ofusing the normal linear combination of kernel activations, the proposed work creates nonlinear combinations of kernel activations in prototype examples. Furthermore, different descriptors are combined in an ensemble of deep support vectormachines, where the product rule is used to combine probability estimates ofdifferent classifiers. Performance is evaluated in terms of the prediction accuracyand interpretability of the model and the results.

Analysis of a Gyroscope′s Rotor Nonlinear Supported Magnetic Field Based on the B-Spline Wavelet-FEM

A supported framework of a gyroscope＇s rotor is designed and the B-Spline wavelet finite element model of nonlinear supported magnetic field is worked out. A new finite element space is studied in which the scaling function of the B-spline wavelet is considered as the shape function of a tetrahedton. The magnetic field is spited by an artificial absorbing body which used the condition of field radiating, so the solution is unique. The resolution is improved via the varying gradient of the B-spline function under the condition of unchanging gridding. So there are some advantages in dealing with the focus flux and a high varying gradient result from a nonlinear magnetic field. The result is more practical. Plots of flux and in the space is studied via simulating the supported system model. The results of the study are useful in the research of the supported magnetic system for the gyroscope rotor.

Transient Responses of Flexible Non-uniform Spinning Shaft with Nonlinear and Asymmetric Supports

In this paper, a hybrid approach was developed to investigate the transient responses of a multi span non uniform flexible spinning shaft with nonlinear and asymmetric supports. The non uniform spinning shaft with variable parameters was modeled as a Bernoulli Euler beam column with sectional constant cross section properties by the finite element method. The supporting stiffness behavior of the nonlinear supports was described as a piecewise linear and asymmetric model. The equations of motion in the matrix form of a multi span non uniform spinning shaft with nonlinear and asymmetric supports were formulated using Hamilton's principle and the assumed mode method. As an example, a spinning rocket with many variable stiffness supports was numerically simulated by the direct integration method. The transient response and dynamic behavior of this rotate dynamic system are analyzed.

Nonlinear model predictive control based on support vector machine and genetic algorithm

This paper presents a nonlinear model predictive control(NMPC) approach based on support vector machine(SVM) and genetic algorithm(GA) for multiple-input multiple-output(MIMO) nonlinear systems.Individual SVM is used to approximate each output of the controlled plant Then the model is used in MPC control scheme to predict the outputs of the controlled plant.The optimal control sequence is calculated using GA with elite preserve strategy.Simulation results of a typical MIMO nonlinear system show that this method has a good ability of set points tracking and disturbance rejection.

Nonlinear Static and Dynamic Stiffness Characteristics of Support Hydraulic System of TBM

Full-face hard rock tunnel boring machines(TBM)are essential equipment in highway and railway tunnel engineering construction.During the tunneling process,TBM have serious vibrations,which can damage some of its key components.The support system,an important part of TBM,is one path through which vibrational energy from the cutter head is transmitted.To reduce the vibration of support systems of TBM during the excavation process,based on the structural features of the support hydraulic system,a nonlinear dynamical model of support hydraulic systems of TBM is established.The influences of the component structure parameters and operating conditions parameters on the stiffness characteristics of the support hydraulic system are analyzed.The analysis results indicate that the static stiffness of the support hydraulic system consists of an increase stage,stable stage and decrease stage.The static stiffness value increases with an increase in the clearances.The pre-compression length of the spring in the relief valve a ects the range of the stable stage of the static stiffness,and it does not a ect the static stiffness value.The dynamic stiffness of the support hydraulic system consists of a U-shape and reverse U-shape.The bottom value of the U-shape increases with the amplitude and frequency of the external force acting on the cylinder body,however,the top value of the reverse U-shape remains constant.This study instructs how to design the support hydraulic system of TBM.

Support Vector Machine-Based Nonlinear System Modeling and Control

This paper provides an introduction to a support vector machine, a new kernel-based technique introduced in statistical learning theory and structural risk minimization, then presents a modeling-control framework based on SVM. At last a numerical experiment is taken to demonstrate the proposed approach's correctness and effectiveness.

NONLINEAR BENDINGS FOR THE ORTHOTROPIC RECTANGULAR THIN PLATES UNDER VARIOUS SUPPORTS

In this paper, the nonlinear bandings for the orthotropic rectangular thin plates under various supports are studied.The uniformly valid asymptotic solutions of the displacement ? and stress function φ are derived by the perturbation offered in [1].

非线性曲面梁形态优化及恒压支撑装置设计

基于超前支护设备顶梁支撑结构研究一种恒压支撑装置的设计方法,恒压支撑装置由正刚度线性弹簧、负刚度非线性平面曲梁及承压气囊组合而成。通过对巷道顶板应力场分析,得到支撑结构的边界条件;利用B样条曲线简述负刚度非线性平面曲梁的特点;基于遗传算法与非线性有限元法对负刚度非线性平面曲梁进行形态优化设计;依据恒压支撑装置的工作原理,对线性螺旋弹簧刚度/强度特性进行分析与设计;对恒压支撑装置的零部组件进行设计,实现支撑装置输出压强大小恒定及自我保护功能。恒压支撑装置设计方法为综掘巷道超前支护研制提供了有力技术支撑。

基于机器学习的地方鸡产蛋曲线拟合探索

[目的]本研究探索以机器学习方法对2个地方鸡品系周产蛋率建模,并将其与非线性回归方法比较,旨在提高养鸡生产中产蛋曲线的拟合精度。[方法]产蛋数据采集自地方鸡杂交组合试验群,自22周龄开始统计产蛋数,至50周龄截止。试验鸡于全封闭鸡舍单笼饲养,产蛋期人工补光16 h。试验鸡分为两组,每组150只鸡。第Ⅰ组是黄羽肉鸡合成系,第Ⅱ组是兼用型地方鸡种。以IBM SPSS Statistics 21.0软件中的非线性回归方法拟合产蛋曲线,所用模型包括Logistic模型、McNally模型、杨宁模型以及Grossman模型。以MATLAB R2014a构建机器学习模型,神经网络选用多层感知器,用300次迭代的拟牛顿法训练数据。以贝叶斯最小二乘支持向量机构建产蛋模型,针对正则项系数和核函数参数进行优化。[结果]依据MSE、R 2、AIC评判标准,Grossman模型在4种非线性回归模型中拟合度最好,McNally模型表现最差。McNally模型预测的高峰产蛋率偏离真实值;Logistic模型、杨宁模型以及Grossman模型高峰产蛋率统计值与真实值基本相符。两组试验鸡的模型参数不同,Ⅱ组持续产蛋能力优于Ⅰ组。基于MSE、R 2以及图形评估结果,神经网络优于传统的非线性方程拟合,而支持向量机略好于神经网络。优化后神经网络参数为2个隐藏层,每个隐藏层包含5个神经元。第Ⅰ组支持向量机的正则项系数为30.97,核参数为0.0701;第Ⅱ组支持向量机的正则项系数为566.53,核参数为0.1754.[结论]机器学习方法可用于产蛋模型构建,相比于传统单变量回归方法,机器学习方法可加入更多变量,提供更准确的预测。

17m超高坐地式玻璃肋幕墙系统结构性能和试验研究

文章以泰康大厦工程为背景,针对超高坐地式玻璃肋幕墙系统进行了大风压作用下的结构性能和位移能力试验研究,通过有限元、试验、理论三者进行对比分析。研究表明,该幕墙系统不仅满足1.75kPa风压作用下的结构性能要求和2.63kPa大风压下结构的安全性能要求,而且满足三个方向位移能力的要求。充分说明17m超高坐地式玻璃肋幕墙系统的设计方案安全可行,设计方案和试验结果可为今后超高坐地式玻璃肋幕墙系统的设计提供支持。

车辆载荷作用下桩后黏性土主动土压力分析

针对现有设计规范进行桩后主动土压力计算时未考虑车辆载荷的动力效应对支护结构影响的问题,在平面滑裂面假定的基础上,结合拟动力学分析方法,考虑车辆动载荷作用下桩后土体受惯性力的影响,推导出车辆载荷作用下主动土压力的计算式,将主动土压力分为动土压力分量和静土压力分量。分析土体容重、桩-土外摩擦角对主动土压力的影响,以及水平振动加速度系数、内摩擦角、行车速度、车桩间距对动土压力的影响,对比分析不同黏聚力情况下的主动土压力分布规律。研究结果表明:桩后动土压力呈非线性分布;在车辆载荷作用下,一个振动周期内桩后主动土压力随滑动面倾角的增大和时间的持续先增大后减小;动土压力幅值随车桩间距的增大而减小,振动周期随车速的增大而增大。

基于HSA-SVR的压电式车削测力仪多维力解耦

文中针对压电式多维力测力仪向间干扰大,制约测量精度的问题,分析了向间干扰对测力仪测量精度的影响,提出了一种基于支持向量回归机(SVR)的非线性解耦算法。利用混合模拟退火算法(HSA)对SVR进行参数寻优,对比并分析了HSA-SVR和线性最小二乘解耦法(LS)的解耦性能,证明经该方法解耦后向间干扰最大为0.526%,非线性误差最大为0.214%,HSA-SVR具有更好的非线性解耦效果。

西安国际文化传播中心大跨斜幕墙支承结构设计

西安国际文化传播中心大跨斜幕墙支承采用竖向张弦桁架结构体系,结构造型独特新颖。对其结构选型和受力特点进行了重点介绍。采用MIDAS Gen软件建立有限元模型,进行非线性静力及抗震分析计算,同时采用ANSYS软件对考虑几何与材料双重非线性的结构整体稳定性进行了详细分析,探讨了安全系数取值等。分析结果及实际使用效果表明,幕墙支承满足正常使用的各项要求,并具有良好的抗震性能。

基于UEL的水电机组导轴承支架非线性连接模态特性分析

模态分析是水电机组故障诊断的重要方法,但其传统方法缺少对接触部分非线性接触的模拟手段,直接影响模态分析的准确性,也无法对链接部位的失效过程及趋势进行分析。该文基于用户自定义单元子程序接口(user-defined element subroutine interface,UEL),建立了结合部三维非线性专用分析单元模型。推导所提模型有限元格式的基本方程,获得表征材料非线性特性的本构关系;给出螺栓连接的固定结合部的静态分析,以及立式水轮发电机导轴承支架的模态分析算例;给出导轴承支架的支臂末端螺栓连接变刚度计算的工程应用实例。实验与仿真对比结果表明了建立的UEL三维非线性接触分析专用单元模型的正确性;连接失效分析表明了随着导轴承支架接触刚度的下降,会在整机模态频率计算中引入新的频率段这一结果的重要性。

不同滑带角度滑坡作用下隧道衬砌与抗滑桩结构非线性受力特征研究

随着隧道滑坡体系支护研究的深入,隧道滑坡与抗滑桩支护之间的受力研究尤为重要。为研究在0°、10°、20°、30°、40°、50°共6种滑带角度影响下隧道衬砌结构与抗滑桩的受力特征,以大准铁路南坪隧道为原型,采取室内缩尺试验以及数值模拟的方法,对三者间受力变形规律进行研究。得到以下结论:随着滑带角度的增大,桩身与隧道衬砌结构变形逐渐减小,作用在隧道以及桩身的土压力、弯矩值逐渐减小;同时,滑带角度为0°、10°、20°、30°时滑坡水平推力对隧道衬砌结构受力影响较大,40°、50°时滑坡水平推力影响显著衰减,拱脚竖向荷载占比逐渐增大。当滑带角度小于30°时,应当主要考虑滑坡水平推力对隧道结构的影响,大于30°时主要考虑由滑坡体所产生的竖向荷载对隧道衬砌结构的影响,此时应当对隧道仰拱及靠近坡体处拱脚位置重点加固。所得试验、模拟结果为隧道与抗滑桩体支护施工提供一定参考。

Nonlinear vibration analysis of pipeline considering the effects of soft nonlinear clamp

Soft nonlinear support is a major engineering project,but there are few relevant studies.In this paper,a dynamic pipeline model with soft nonlinear supports at both ends is established.By considering the influence of the Coriolis force and centrifugal force,the dynamical coupling equation of fluid-structure interaction is derived with extended Hamilton’s principle.Then,the approximate analytical solutions are sought via the harmonic balance method.The amplitude-frequency response curves show that different effects can be determined by approximate analysis.It is demonstrated that the increase in the fluid velocity can increase the amplitude of the pipeline system.The frequency range of unstable response increases when the fluid pressure raises.The combination of the soft nonlinear clamp and the large geometrical deformation of the pipeline affects the nonlinear vibration characteristic of the system,and the external excitation force and damping have significant effects on the stability.

大型双馈风电机组弹性支承动态特性分析

风电机组正在朝着大型化与智能化方向发展,机组载荷成倍增长,这对机组部件的动力学设计提出了更高要求。文章以风电机组齿轮箱弹性支承为研究对象,首先,采用多体动力学软件建立了风电机组整机动力学模型,并耦合风轮气动载荷计算与风电机组控制程序;然后,利用搭建的风电机组整机模型计算了均匀风速下齿轮箱弹性支承的动态响应时频特性,对比分析了风切变、塔影效应以及非线性刚度对弹性支承响应的影响规律;最后,结合实际仿真计算了湍流风速工况下风电机组一个弹性支承出现损坏时的动态响应。结果表明,当弹性支承出现损坏仅能匹配50%刚度时,其响应会急剧增大,超过振动标准安全阈值4倍以上,影响风电机组整机安全稳定运行。

带有NES-GMM的弹性支撑梁振动控制及能量采集研究

本文针对带有非线性能量阱-超磁致伸缩材料(NES-GMM)的弹性支承梁的振动抑制及能量采集问题开展了研究.基于哈密顿原理、伽辽金方法并考虑GMM的本构关系,推导了梁、NES及GMM的耦合控制方程.利用四阶龙格库塔方法对谐波激励下梁的响应进行了数值分析.本研究首先从时域和频域两个方面分析了NES-GMM对梁的振动抑制效果,随后探讨了外界激励频率变化对NES-GMM装置能量耗散及采集性能的影响.此外,本文还分析了NES的非线性刚度、线性阻尼、惯性系数及NES-GMM加载位置等参数对振动控制和能量采集效果的影响.研究结果表明,NES-GMM系统能有效降低弹性支承梁在谐波激励下的多模态横向振动,并在振动抑制与能量采集两方面展现出良好的独立性能.

基于非线性方法的核级双层容器及支承结构热棘轮效应研究

核级双层容器承担一回路压力边界和一回路冷却剂“纵深防御”包容的双重安全功能,是高温反应堆本体常用的一种结构形式。然而内层容器在瞬态工况下温度变化剧烈,内外层容器之间导热性能差,内外温差大,热棘轮效应是可能的重要失效机制。本文通过建立核级双层容器及支承结构轴对称有限元模型,使用非线性方法分析其在热-机循环载荷作用下温度、应力和应变的响应,研究棘轮效应分布的规律和特征。结果表明:热棘轮效应显著,是该类容器的主要失效模式;热棘轮敏感区域分布具有多点式的特点,在内外层容器不同部位均有涉及;危险区域的塑性应变累积行为主要出现在循环温度载荷的降温阶段,应变增量随循环次数的增加逐步稳定。结论指出热棘轮效应是核级双层容器结构设计必须关注的重点问题,所建立的非线性分析方法是解决该问题的有效手段。本研究可为核级双层容器热棘轮分析以及一回路工况参数优化设计和应变监测测点布置提供重要方法指导。