基于非线性建模与拟合的永磁同步电机转子初始位置精确估计方法

针对永磁同步电机转子初始位置估计的精度与收敛速度受限问题,提出一种基于高频信号注入的非线性建模与拟合实现的初始位置估计方法。首先,建立初始位置与高频信号响应的关联模型,表明高频响应可用于直接计算初始位置,但直接计算结果在大部分转子位置易受测量噪声的影响。为此,提出基于多项式模型建立位置估计非线性模型,选取合适的模型参数,利用少量测试点拟合该模型,即可实现初始位置的快速精确估计,有效提高了估计精度与系统抗干扰能力。实验与仿真结果表明,相比现有方法,提出的方法易于实现,无需复杂滤波器与观测器设计,仅需要选取少量测试点即可快速估计精确转子初始位置,在保证估计精度的同时改进了传统估计方法收敛速度慢问题。

基于非线性拟合单位电流最优输出功率的永磁同步电机位置估计误差补偿策略

针对永磁同步电机(permanent magnet synchronous motor, PMSM)参数变化影响转子位置估计精度问题,提出了一种基于单位电流最优功率输出的位置估计误差非线性补偿策略。首先,分析了电机参数误差特别是电感误差对位置估计精度的影响,建立了位置估计误差与单位电流输出功率的关联模型,推导出电感误差与最优输出功率的关系模型。然后,结合功率模型构建了基于多项式的电感误差非线性模型,利用少量测试点拟合该多项式模型,即可辨识电感误差用于准确补偿位置估计误差。所提方法实现简单,不依赖电机参数,能有效克服噪声干扰。最后,仿真与实验结果验证了提出补偿策略的有效性。

基于数据融合的加工中心功能铣头贝叶斯可靠性评估

针对加工中心功能铣头可靠性评估中小样本和高成本的特点,提出融合性能退化试验数据与现场故障数据的贝叶斯可靠性评估方法。该方法通过基于故障机理的性能退化试验设计和数据分析,导出功能铣头的寿命模型、积累先验信息并外推伪寿命数据;应用贝叶斯方法构建融合试验信息和现场故障数据的评估模型,并最终实现对功能铣头可靠性的评估。以某加工中心的功能铣头为示例进行方法描述,并与基于性能退化试验数据分析和基于现场数据统计的评估方法进行对比,结果表明,该方法具有更高的评估精度,具有一定的工程应用价值。

数控机床可靠性评价体系探究

在分析数控机床关键故障部位、早期故障原因、性能要求的基础上,从系统、寿命周期及评价要素这3个维度,建立了可靠性评价体系的三维模型。以某型数控落地铣镗床为研究对象,通过对售后维修数据的分析确定了该机床发生故障较多的子系统,通过早期故障原因分析确定了该机床寿命周期各阶段的可靠性工作重心,进而结合该机床的性能要求建立了其可靠性评价体系。

无锡日报报业集团大楼建筑设计

无锡日报报业集团大楼是太湖新城金融商务第一街区规划的组成部分,整个金融商务第一街区的最大特色,就是统一进行城市设计,严格按照规划控制建筑的高度、退界,将分属不同投资建设主体却无缝对接的地块在地下空间进行统一整合。

通信基站新风系统负荷预测模型

负荷预测对通信基站新风系统的节能运行具有重大意义。针对传统通信基站新风控制系统存在模型固定和智能性差的问题,提出了一种基于BP神经网络的通信基站新风系统负荷预测模型。基于历史运行数据统计分析了风机挡位影响因素,利用灰色关联分析法确定了负荷预测模型的输入因子,对运行数据预处理以建立样本库,利用样本库训练BP神经网络,采用遗传算法(GA)动态自适应优化其初始权值和阈值,最后建立通信基站新风系统负荷预测模型。研究结果表明:T时刻室外温度、室内温度和新风系统负荷是影响T+1时刻新风系统负荷的关键因素。预测结果验证了通信基站新风系统负荷预测模型的可行性和有效性。该模型可辅助传统控制系统使其控制更加灵活,且应对复杂领域时应变处理能力更强。

Improved Data Processing of Loading Spectrum for Applications of Rainflow Counting Method

The rainflow counting method is a reasonable cyclecounting procedure for fatigue life calculation and simulation testing of structures.It defines cycles as closed stress /strain hysteresis loops.Application of the rainflow counting method requires a data processing of the loading spectrum,which consists of the elimination of non-peak value data points,load time histories adjustment and loop extraction.In the data processing of the loading spectrum,if a stress point is neither the peak nor the valley,it will be identified and eliminated from the loading spectrum.Generally,the loading process is idealized as a single peak-valley straight line.But in actually,there are polylines or nearly straight lines between peaks and valleys which can't be ignored.Therefore,in the process of eliminating such data points,it will produce error in method itself.To reduce the error produced by the traditional method itself,a new method which can well simplify the polylines in data processing of loading spectrum is proposed in this paper.Comparing with the original approximation method,the proposed method has higher precision.

Recursive Algorithm Based Reliability Analysis of Multiphase Satellite Systems with Propagated Failures

Modern satellite systems are generally designed to fulfill multiphase-missions. Component /subsystem redundancies are commonly used to achieve high reliability and long life of modern satellite systems. These characteristics have leaded to a critical issue of reliability analysis of satellites that is how to deal with the reliability analysis with multiphase-missions and propagated failures of redundant components. Traditional methods based on the binary decision diagram( BDD) can hardly cope with these issues efficiently. Accordingly, a recursive algorithm method was introduced to facilitate the reliability analysis of satellites. This method was specified for the analysis of static fault tree and it was implemented by generating combination of component failures and carrying out a backward recursive algorithm. The effectiveness of the proposed method was demonstrated through the reliability analysis of a multiphase satellite system with propagated failures.The major advantage of the proposed method is that it does not need composition of BDD and its computational process is automated.

Reliability Analysis of Heavy-Duty CNC Machine Hydraulic System Based on Fuzzy Goal Oriented Method

There is a common sense that heavy-duty CNC machine strongly depends on its foundation and can be easily affected by many factors.Hydraulic system,the most important part in CNC machine,is a complex and multi-loop system.In order to make up for the shortcomings of traditional fault tree analysis method and traditional GO method,the most effective method named fuzzy GO method is proposed to analyze the reliability of hydraulic system.And then some ideas are provided for system reliability assessment,fault diagnosis and maintenance by qualitative and quantitative analysis.

复杂多态系统的区间值模糊贝叶斯网络建模与分析

随着现代工程系统结构复杂度的增加以及运行环境的复杂化,传统的可靠性分析与评估技术已不能满足现代工程系统需求.针对复杂多态系统可靠性分析与评估的需求,本文从部件状态分析、系统结构分析入手,对存在认知不确定性同时考虑失效相关性的复杂多态系统进行可靠性建模与分析.由于现代复杂多态系统信息输入及系统故障影响因素的多样性,以及系统冗余,使得不确定性和共因失效对复杂多态系统可靠性分析和评估至关重要.本文借助贝叶斯网络对多态系统的图形表达和推理优势,采用模糊理论中区间值三角模糊数对部件概率进行描述;同时利用β因子模型对共因失效进行量化,再将其以新增共因节点的方式实现共因失效的贝叶斯网络建模,从而提出基于区间值模糊贝叶斯网络的复杂多态系统可靠性分析方法.最后,将基于区间值模糊多态贝叶斯网络对具有共因失效的多态卫星天线双轴定位机构传动系统进行可靠性分析.通过对实际工程系统的分析,表明本文建立的多种因素影响下复杂多态系统的可靠性建模和分析方法,进一步完善了复杂系统可靠性分析理论与方法.

电动汽车混合储能系统的事件触发无差拍控制

混合储能系统具有高功率密度和高能量密度的性能优势,已经被广泛应用于电动汽车。以电动汽车的电池-超级电容混合储能系统为研究对象,针对传统控制方法中快速动态响应和计算负荷的矛盾,提出一种基于事件触发无差拍控制的方法。该控制方法继承了无差拍控制方法响应速度快、过冲量小的优点,可以在一个控制周期内计算获得最优控制信号,从而充分利用混合储能系统应对复杂工况,以达到稳定母线电压的目的;同时,通过引入事件触发控制策略,根据系统状态消除冗余计算,可以在保持控制性能的前提下有效降低计算负荷。基于Matlab/Simulink构建了电池-超级电容混合储能的数字仿真系统,仿真试验结果表明所提出的事件触发无差拍控制具有良好的控制效果:(1)可以将直流母线电压纹波稳定控制在参考值1.4%,接近传统无差拍控制的1.1%,性能上满足要求;(2)计算执行平均次数是传统方法的61.2%,计算负荷减小了39.8%;(3)引入事件触发控制机制,可以有效消除冗余的开关动作,提高混合储能系统的整体效率。最后,围绕中国电动汽车的行驶工况,基于OPAL-RT的硬件在环试验,进一步验证事件触发无差拍控制方法在电池-超级电容混合储能系统的有效性,研究结果为电动汽车混合储能系统的控制提供了一种参考。

Reliability Analysis of Electrical System of Computer Numerical Control Machine Tool Based on Bayesian Networks

The core of computer numerical control(CNC) machine tool is the electrical system which controls and coordinates every part of CNC machine tool to complete processing tasks, so it is of great significance to strengthen the reliability of the electrical system. However, the electrical system is very complex due to many uncertain factors and dynamic stochastic characteristics when failure occurs. Therefore, the traditional fault tree analysis(FTA) method is not applicable. Bayesian network(BN) not only has a unique advantage to analyze nodes with multiply states in reliability analysis for complex systems, but also can solve the state explosion problem properly caused by Markov model when dealing with dynamic fault tree(DFT). In addition, the forward causal reasoning of BN can get the conditional probability distribution of the system under considering the uncertainty;the backward diagnosis reasoning of BN can recognize the weak links in system, so it is valuable for improving the system reliability.

Fault Tree Analysis of Feeding Control System for Computer Numerical Control Heavy-Duty Horizontal Lathes with Multiple Common Cause Failure Groups

The lathes are basic machine tools for manufacturing cylindrical parts. In recent years, the DLseries computer numerical control(CNC) heavy-duty horizontal lathes(HDHLs) have been widely used in the transportation, energy and aviation industries. High availability of the CNC heavy-duty lathes is demanded to guarantee the efficiency and benefit of these manufacturing industries. As one of the key subsystems of the HDHLs, the feeding control system is studied in this paper on reliability modeling and reliability analysis. The fault tree analysis(FTA) method is used for reliability modelling of the feeding control system. Considering the multiple common cause failure groups(CCFGs) existing in the system, a modified beta factor parametric model is introduced to model the common cause failure(CCF) in system. The reliability of feeding control system is then obtained and the effect of CCF on the reliability of the whole system is studied as well.