融合CNN和ViT的声信号轴承故障诊断方法

针对轴承故障诊断任务数据量少、故障信号非平稳等特点,提出一种短时傅里叶变换、卷积神经网络和视觉转换器相结合的轴承故障诊断方法。首先,利用短时傅里叶变换将原始声信号转换为包含时序信息和频率信息的时频图像。其次,将时频图像作为卷积神经网络的输入,用于隐式提取图像的深层特征,其输出作为视觉转换器的输入。视觉转换器用于提取信号的时间序列信息。并在输出层利用Softmax函数实现故障模式的识别。试验结果表明,该方法对于轴承故障诊断准确率较高。为了更好解释和优化提出的轴承故障诊断方法,利用t-分布领域嵌入算法对分类特征进行了可视化展示。

基于改进INFO-Bi-LSTM模型的SO_(2)排放质量浓度预测

针对火电机组SO_(2)排放质量浓度的影响因素众多,难以准确预测的问题,提出一种改进向量加权平均(weighted mean of vectors,INFO)算法与双向长短期记忆(bi-directional long short term memory,Bi-LSTM)神经网络相结合的预测模型(改进INFO-Bi-LSTM模型)。采用Circle混沌映射和反向学习产生高质量初始化种群,引入自适应t分布提升INFO算法跳出局部最优解和全局搜索的能力。选取改进INFO-Bi-LSTM模型和多种预测模型对炉内外联合脱硫过程中4种典型工况下的SO_(2)排放质量浓度进行预测,将预测结果进行验证对比。结果表明:改进INFO算法的寻优能力得到提升,并且改进INFO-Bi-LSTM模型精度更高,更加适用于SO_(2)排放质量浓度的预测,可为变工况下的脱硫控制提供控制理论支撑。

基于人工神经网络的PV/T热电联供系统性能预测

为研究太阳能PV/T热电联供系统的性能和针对太阳能PV/T系统复杂的能量平衡方程,搭建了太阳能PV/T系统试验台,同时建立了基于改进灰狼优化的BP神经网络(back propagation neural network model based on improved grey wolf algorithm,IGWO-BP)预测模型,在晴朗天气下进行试验,并采用该模型对系统电功率以及蓄热水箱内水温进行预测。结果显示,晴朗日系统的电效率8.7%~12.2%、热效率51.7%;预测结果与BP神经网络预测模型、基于粒子群优化的BP神经网络(back propagation neural network based on particle swarm optimization,PSO-BP)预测模型和卷积神经网络(convolutional neural network,CNN)预测模型预测结果进行比较,结果显示IGWO-BP预测模型电效率预测模型的绝对百分比误差(mean absolute percentage error,MAPE)、决定系数(determination coefficient,R^(2))、均方根误差(root mean square error,RMSE)、效率因子(efficient factor,EF)和Pearson相关系数(pearson related coefficient,r)分别为4.5E-05、0.99、0.24、0.99和1.00,在储热罐温度预测中,上述指标分别为8.90E-04、0.98、0.07、0.98、0.99,均优于其他预测模型,IGWO-BP神经网络预测模型具有更好的预测性能。研究结果可为太阳能PV/T热电联供系统性能预测与优化控制提供参考。

Lightweight and highly robust memristor-based hybrid neural networks for electroencephalogram signal processing

Memristor-based neuromorphic computing shows great potential for high-speed and high-throughput signal processing applications,such as electroencephalogram(EEG)signal processing.Nonetheless,the size of one-transistor one-resistor(1T1R)memristor arrays is limited by the non-ideality of the devices,which prevents the hardware implementation of large and complex networks.In this work,we propose the depthwise separable convolution and bidirectional gate recurrent unit(DSC-BiGRU)network,a lightweight and highly robust hybrid neural network based on 1T1R arrays that enables efficient processing of EEG signals in the temporal,frequency and spatial domains by hybridizing DSC and BiGRU blocks.The network size is reduced and the network robustness is improved while ensuring the network classification accuracy.In the simulation,the measured non-idealities of the 1T1R array are brought into the network through statistical analysis.Compared with traditional convolutional networks,the network parameters are reduced by 95%and the network classification accuracy is improved by 21%at a 95%array yield rate and 5%tolerable error.This work demonstrates that lightweight and highly robust networks based on memristor arrays hold great promise for applications that rely on low consumption and high efficiency.

面向图像数据的ConvNeXt特征提取研究

卷积神经网络在计算机视觉任务中已取得诸多成果,无论是目标检测还是分割,都依赖于提取到的特征信息,一些模糊性的数据和物体形状各异等问题为特征提取带来了极大的挑战。传统的卷积结构只能学习到特征图相邻空间位置的上下文信息,无法对全局信息进行提取,而自注意力机制等模型虽具有更大的感受野和建立全局的依赖关系,但存在计算复杂度过高和需要大量数据等不足。为此,提出了一种CNN与LSTM结合的模型,该模型在增强局部感受野的前提下,可以更好地结合图像数据的全局信息。研究以主干网络ConvNeXt-T为基础模型,通过拼接不同大小卷积核以融合多尺度特征来解决物体形状各异的问题,并从水平和垂直两个方向聚合双向长短期记忆网络关注全局与局部信息的交互性。实验对公开访问的CIFAR-10,CIFAR-100,Tiny ImageNet数据集进行图像分类任务,所提出的网络在3个数据集实验中相较于基础模型ConvNeXt-T在准确率上分别提高了3.18%,2.91%,1.03%。实验证明改进后的ConvNeXt-T网络相较于基础模型在参数量和准确性方面都有了大幅度提升,可提取到更加有效的特征信息。

基于t检验和逐步网络搜索的有向基因调控网络推断算法

为了克服基于条件互信息的路径一致算法(PCA-CMI)无法识别调控方向的缺陷,并进一步提高网络推断准确率,提出了一种基于t检验和逐步网络搜索的有向网络推断算法(DNI-T-SRS)。首先,对不同实验条件下的表达数据进行t检验以辨别基因调控的上下游关系,指导路径一致(Path Consensus)算法中条件基因的选取,根据CMI2(Conditional Mutual Inclusive Information)剔除网络中的冗余边,得到了基于t检验的有向调控关系推断算法CMI2NI-T(CMI2-based Network Inference guided by t-Test);然后,建立有向调控关系对应的米氏微分方程模型对数据进行拟合,根据贝叶斯信息准则进行逐步网络搜索以修正网络推断结果。利用CMI2NI-T推断DREAM6挑战中的两个测试网络,所得到的曲线下面积(AUC)分别为0.7679和0.9796,相较于PCA-CMI分别提高了16.23%和11.62%;通过进一步的数据拟合后DNI-T-SRS的推断准确率分别达到了86.67%和100.00%,相较于PCA-CMI分别提高了18.19%和10.52%。实验结果表明,所提DNI-T-SRS算法能够有效剔除间接调控关系并保留直接调控连接,得到精确的基因调控网络推断结果。

基于冗余矢量的T型三电平双向变换器中点电位平衡模型预测控制

T型三电平双向变换器因其具有损耗小、输出电能质量高等优势适合应用于低压交直流混合配电网互联等场景。针对T型三电平双向变换器存在直流侧中点电位不平衡等问题,模型预测控制因其易于实现多目标优化的特点具有良好的应用价值。为了解决传统有限集模型预测控制(FCS-MPC)权重因子整定困难,中点电位控制效果不佳的问题,提出一种基于冗余矢量的中点电位平衡模型预测控制,利用冗余小矢量的特性实现对中点电位平衡的控制,避免了权重因子的选择。在此基础上,利用代价函数计算矢量的作用时间并预测输出最优开关序列,提升系统的稳态性能。最后,通过实验测试验证了所提策略的有效性。

气象数据驱动的拉林铁路简支T梁温致变形预测

为快速、准确预测日照环境下高原铁路桥梁的温度变形效应,基于长短期记忆神经网络(LSTM)提出了一种气象数据驱动的桥梁温度变形智能预测模型。以拉林铁路简支T梁为背景,采用热力耦合有限元仿真分析,构建了“气象数据—温度变形”映射的样本数据库,以此训练预测模型并对桥梁温致变形进行预测。结果表明,LSTM模型表现出了较高的精度和优势,其梁体竖向挠度预测的决定系数(R2)超过0.97,平均绝对误差(MAE)和均方根误差(RMSE)较反向传播神经网络(BP)模型提升超过70%,较随机森林(RF)模型分别提升了24%和27%。预测挠度与真实值在趋势和数值方面均基本一致,表明所提出的预测方法性能优异,为高原铁路轨道平顺性变化规律研究及动态检测数据评价提供参考。

Synchronous Control of Complex Networks with Fuzzy Connections

This article is based on the T-S fuzzy control theory and investigates the synchronization control problem of complex networks with fuzzy connections. Firstly, the main stability equation of a complex network system is obtained, which can determine the stability of the synchronous manifold. Secondly, the main stable system is fuzzified, and based on fuzzy control theory, the control design of the fuzzified main stable system is carried out to obtain a coupling matrix that enables the complex network to achieve complete synchronization. The numerical analysis results indicate that the control method proposed in this paper can effectively achieve synchronization control of complex networks, while also controlling the transition time for the network to achieve synchronization.

应用PSO-RBF神经网络预测太阳能PV/T系统的热、电性能

为准确预测太阳能光伏光热(Solar Photovoltaic/Thermal,PV/T)系统的热、电性能,文章利用PSO(Particle Swarm Optimization)算法优化了RBF(Radial Basis Function)神经网络,并基于此方法建立了太阳能PV/T系统性能的仿真预测模型,与基于未优化RBF神经网络建立的预测模型进行了对比分析。同时,搭建了太阳能PV/T实验平台,通过云平台采集实验数据用于上述模型。研究结果表明:使用PSO算法优化后的RBF神经网络模型相较于未优化模型预测精度提高了20%,预测稳定性提高了30%,拟合优度R值有所提升。基于PSO-RBF神经网络建立的预测模型可精确预测太阳能PV/T系统的热、电性能。

基于CNN特征的RGB-T目标跟踪算法

针对单一图像源下目标跟踪鲁棒性差和跟踪精度低的问题,论文提出一种基于卷积神经网络(CNN)特征的RGB-T目标鲁棒性跟踪算法。首先,采用分层CNN特征对RGB图像和热红外图像进行编码。其次,基于SiamDW跟踪框架对目标进行跟踪。然后根据短时间内的跟踪结果对每个CNN特征的结果进行自适应融合并定位。最后,将RGB图像和热红外图像的结果进行融合并定位。实验表明,与现有的孪生跟踪算法相比,该算法在中心位置偏差和重叠率上表现更优,且在复杂情况下鲁棒性更好。

基于T-S模糊神经网络的光伏发电机组自动控制

光照情况变化会使光伏发电机组功率呈现不稳定性,加大光伏发电机组控制难度,为此,设计了基于T-S模糊神经网络的光伏发电机组自动控制方法。构建光伏阵列数学模型,分析在均匀和不均匀2种光照情况下光伏发电机组特性曲线。以分析结果为依据,采用T-S模糊神经网络构建光伏发电机组自动控制模型。为保证良好的控制效果,引入定比因子优化隶属度函数,输出最佳跟踪结果,结合最佳跟踪结果和自动控制模型实现光伏发电机组自动控制。测试结果显示,该方法能够完成光伏阵列特性分析,控制效果好。

基于Gram矩阵的T-CNN时间序列分类方法

时间序列分类是流式数据事件分析和数据挖掘的基础.针对现有方法损失时间属性、分类准确率低、效率低等问题,提出基于Gram矩阵的T-CNN时间序列分类方法.该方法对时间序列进行小波阈值去噪,过滤正态曲线噪声,提出基于Gram矩阵的无损时间域图像转换方法,保留事件全部信息.改进时间序列CNN分类方法,在卷积层计算引入Toeplitz卷积核矩阵,实现矩阵乘积替换卷积运算.引入Triplet网络思想,构建T-CNN分类模型,通过计算同类事件与不同类事件间的相似度优化CNN的平方损失函数,提高T-CNN模型梯度下降的收敛速率及分类准确性.实验表明,相比现有方法,T-CNN时间序列分类方法能够提高35%的分类准确率、35%的分类精确率及40%的分类效率.

A Methodology for Reliability of WSN Based on Software Defined Network in Adaptive Industrial Environment

As communication technology and smart manufacturing have developed, the industrial internet of things(IIo T)has gained considerable attention from academia and industry.Wireless sensor networks(WSNs) have many advantages with broad applications in many areas including environmental monitoring, which makes it a very important part of IIo T. However,energy depletion and hardware malfunctions can lead to node failures in WSNs. The industrial environment can also impact the wireless channel transmission, leading to network reliability problems, even with tightly coupled control and data planes in traditional networks, which obviously also enhances network management cost and complexity. In this paper, we introduce a new software defined network(SDN), and modify this network to propose a framework called the improved software defined wireless sensor network(improved SD-WSN). This proposed framework can address the following issues. 1) For a large scale heterogeneous network, it solves the problem of network management and smooth merging of a WSN into IIo T. 2) The network coverage problem is solved which improves the network reliability. 3) The framework addresses node failure due to various problems, particularly related to energy consumption.Therefore, it is necessary to improve the reliability of wireless sensor networks, by developing certain schemes to reduce energy consumption and the delay time of network nodes under IIo T conditions. Experiments have shown that the improved approach significantly reduces the energy consumption of nodes and the delay time, thus improving the reliability of WSN.

通信受限下T-S模糊网络控制系统L_(1)动态输出反馈控制

针对通信受限的非线性网络控制系统,为兼顾系统性能和节约利用网络资源,引入事件触发通信机制(ETCM),利用时延建模方法和并行分布补偿(PDC)技术,将连续控制系统建模为一个采样数据误差依赖的非线性网络化系统模型;构建保守性低的时滞依赖和模糊基依赖的Lyapunov-Krasovskii泛函,给出增广系统稳定性和鲁棒性结果,得到鲁棒控制器存在的充分条件,提出一种基于线性矩阵不等式(LMIs)的事件触发参数,以及全局模糊L 1动态输出反馈控制器参数的协同设计方法。采用永磁同步电动机模型仿真验证,结果表明该设计方法可减少网络资源占用,达到闭环控制系统的性能要求。

基于DTBN与T-S故障树的电池热管理系统可靠性分析

提出一种评估电动汽车动力电池热管理系统的可靠性分析算法。构建了电池热管理系统T-S动态故障树,转化为离散时间Bayes网络(DTBN)模型。同时将T-S动态门规则转化为网络节点的条件概率表。依据所建可靠性模型和部件的故障率,计算得到动力电池热管理系统在任务时间内的故障概率值为0.453,并获得各部件的后验概率、概率重要度和关键重要度。结果表明:对比Monte Carlo仿真方法,本方法的故障概率计算值误差小于5%,概率重要度靠前的是单体电池温度传感器、电池冷却液泵、电池冷却液管路等部件。该方法能克服传统故障树分析难以构建Bayes网络条件概率表等问题。

t/k-fault diagnosis algorithm of n-dimensional hypercube network based on the MM*model

Compared with accurate diagnosis, the system’s selfdiagnosing capability can be greatly increased through the t/kdiagnosis strategy at most k vertexes to be mistakenly identified as faulty under the comparison model, where k is typically a small number. Based on the Preparata, Metze, and Chien(PMC)model, the n-dimensional hypercube network is proved to be t/kdiagnosable. In this paper, based on the Maeng and Malek(MM)*model, a novel t/k-fault diagnosis(1≤k≤4) algorithm of ndimensional hypercube, called t/k-MM*-DIAG, is proposed to isolate all faulty processors within the set of nodes, among which the number of fault-free nodes identified wrongly as faulty is at most k. The time complexity in our algorithm is only O(2~n n~2).

基于双边闭环函数的T-S模糊模型非线性系统网络跟踪控制

研究了一类基于T-S模糊模型的非线性系统网络跟踪控制问题。首先基于输入时滞法,建立了考虑网络诱导时滞和数据丢包的T-S模糊模型非线性系统跟踪误差模型;然后利用采样区间[t_(k),t_(k+1))信息,构建了一个新的双边闭环Lyapunov-Krasovskii(L-K)泛函,并使用新的L-K泛函和自由权矩阵积分不等式,得到了非线性网络系统H_(∞)跟踪控制的稳定性判据,以及控制器的设计方法。仿真结果表明,在相同网络条件下,所设计模糊控制器产生的跟踪误差相比已有文献结果明显更小;在相同的H_(∞)跟踪性能要求下,比已有文献具有更大的输入时滞上界,表明相较于现有方法,所提方法的保守性更低。

基于t-SSA-BP的煤矿噪声职业健康损害预测

为精准预测煤矿接噪人员职业健康损害情况,基于分位图法选取健康损害数据影响因素,依据噪声职业健康损害评估方法,以自适应t分布变异因子和麻雀搜索算法(SSA)作为参数优化算法,建立t-SSA-BP煤矿噪声职业健康损害预测模型,利用基准函数测试算法寻优性能,并以陕北地区10个煤矿为研究对象,采用现场调查、理论分析和Matlab仿真模拟方法验证煤矿噪声职业健康损害预测模型。结果表明:噪声暴露强度、个体年龄、接噪工龄和接噪岗位4个指标是煤矿噪声健康损害的影响因素;t-SSA较SSA在4种基准函数上整体精度提升660%,5种噪声健康损害神经网络预测模型预测精度从高到低依次为:t-SSA-BP>SSA-BP>PSO-BP>CFA-PSO-RBF>PSO-GRNN,t-SSA-BP预测模型的平均绝对误差(MAE)、平均绝对百分误差(MAPE)相比SSA-BP分别降低681%、667%,决定系数(R2)达0999,预测精度明显提升,且收敛速度更快。

PREDICTION OF FLOW STRESS OF HIGH-SPEED STEEL DURING HOT DEFORMATION BY USING BP ARTIFICIAL NEURAL NETWORK

The hot deformation behavior of TI (18W-4Cr-1V) high-speed steel was investigated by means of continuous compression tests performed on Gleeble 1500 thermomechan- ical simulator in a wide range of tempemtures (950℃-1150℃) with strain rotes of 0.001s-1-10s-1 and true strains of 0-0. 7. The flow stress at the above hot defor- mation conditions is predicted by using BP artificial neural network. The architecture of network includes there are three input parameters:strain rate,temperature T and true strain , and just one output parameter, the flow stress ,2 hidden layers are adopted, the first hidden layer includes 9 neurons and second 10 negroes. It has been verified that BP artificial neural network with 3-9-10-1 architecture can predict flow stress of high-speed steel during hot deformation very well. Compared with the prediction method of flow stress by using Zaped-Holloman parumeter and hyperbolic sine stress function, the prediction method by using BP artificial neurul network has higher efficiency and accuracy.