NFHP-RN:AMethod of Few-Shot Network Attack Detection Based on the Network Flow Holographic Picture-ResNet

Due to the rapid evolution of Advanced Persistent Threats(APTs)attacks,the emergence of new and rare attack samples,and even those never seen before,make it challenging for traditional rule-based detection methods to extract universal rules for effective detection.With the progress in techniques such as transfer learning and meta-learning,few-shot network attack detection has progressed.However,challenges in few-shot network attack detection arise from the inability of time sequence flow features to adapt to the fixed length input requirement of deep learning,difficulties in capturing rich information from original flow in the case of insufficient samples,and the challenge of high-level abstract representation.To address these challenges,a few-shot network attack detection based on NFHP(Network Flow Holographic Picture)-RN(ResNet)is proposed.Specifically,leveraging inherent properties of images such as translation invariance,rotation invariance,scale invariance,and illumination invariance,network attack traffic features and contextual relationships are intuitively represented in NFHP.In addition,an improved RN network model is employed for high-level abstract feature extraction,ensuring that the extracted high-level abstract features maintain the detailed characteristics of the original traffic behavior,regardless of changes in background traffic.Finally,a meta-learning model based on the self-attention mechanism is constructed,achieving the detection of novel APT few-shot network attacks through the empirical generalization of high-level abstract feature representations of known-class network attack behaviors.Experimental results demonstrate that the proposed method can learn high-level abstract features of network attacks across different traffic detail granularities.Comparedwith state-of-the-artmethods,it achieves favorable accuracy,precision,recall,and F1 scores for the identification of unknown-class network attacks through cross-validation onmultiple datasets.

基于ResNet的害虫图像质量评估方法

提出一种基于ResNet的害虫图像质量评估方法,从而对林业害虫图像进行预评估。该方法首先提取害虫图像特征,并通过Wasserstein距离计算不同图像特征间的相似分布距离作为质量伪标签进行训练。通过预评估区分出不同质量的林业害虫图像,对其进行筛选、识别、分类,从而达到提高识别准确率的效果。实验结果表明,经过该方法筛选后的林业害虫数据集在ResNet18和ResNet50网络上识别准确率分别提升2.97%,2.57%。

基于改进ResNet18的干香菇等级识别

为解决干香菇等级识别技术复杂及识别精度不高的问题,提出了一种基于残差神经网络ResNet18的干香菇等级识别方法。首先将传统的ResNet18中Stem的7×7卷积层替换为3个3×3卷积层串联,保证在感受野保持不变的情况下进一步减小计算量;其次针对残差块中线性变换和非线性变换不足的问题,引入融合非对称卷积和h-swish激活函数,增加了模型的复杂性,使其能够进行更深层次的特征学习;最后在ResNet18骨干网络中引入高效通道注意力机制,加强模型提取特征的能力。实验结果表明,改进后的ResNet18网络模型准确度达97.04%,相比ResNet18网络模型方法提升了4.81%,且性能优于VGG16、MobileNetV2、DenseNet121、ResNet34等网络模型方法,可提高干香菇等级的识别精度,单幅图像的检测时间为5.91 ms,对干香菇智能分拣过程中的等级识别具有借鉴意义。

基于改进ResNet34网络的变电站设备巡检图像分类识别的方法

针对变电站设备巡检图像识别领域中存在的图像规模有限和识别准确率低等问题,提出了一种基于改进ResNet34网络的图像分类识别方法。采用Seam Carving算法对图像中的低能量区域进行压缩以保留关键特征;同时使用弹性变换、高斯噪声等6种图像增强技术来增强图像的多样性。将基础ResNet34网络与卷积注意力模块结合,增强模型对设备巡检图像关键特征的提取能力。使用在ImageNet数据集上的预训练模型作为迁移学习的特征提取器来解决样本数量不足的问题。在Adam优化器中引入余弦退火策略来动态调整学习率使改进的ResNet34网络更快收敛至最优解。试验结果表明所提方法比基础ResNet34网络的准确率提升了0.0733,损失率降低了0.2019,为变电站设备巡检图像识别领域提供了一种可靠的解决方案。

基于改进ResNet50的钨矿石双能X射线图像分选方法

文中提出一种基于深度扩张可分离卷积和注意力机制的残差网络模型(DWAtt-ResNet),通过实验对比表明,该模型在钨矿石双能X射线图像数据集上准确率、F1分数、AUC值和AP值均优于ConvNeXt、DenseNet121和EfficientNet_b4等主流的图像分类模型。通过消融实验表明,该模型准确率达到87.4%,计算量为2.7GFLOPs,参数量为16.95M,相比ResNet50准确率提高3%,计算量降低1.42 GFLOPs,参数量降低6.56M,准确率提升的同时,效率大幅提升,更适合工业生产的矿石快速分拣需求。

基于改进ResNet50的表面肌电信号手势识别

为了提高手势动作在类别众多且相似度高的情况下的识别精度,提出了一种基于连续小波变换和残差神经网络Res-Net50的表面肌电信号手势识别方法。首先对Ninapro DB2和DB3的原始表面肌电信号进行预处理和连续小波变换,得到Multi-sEMG Wavelet Map数据集,然后送入改进的ResNet50模型进行识别分类。实验结果表明,改进后的ResNet50网络模型在Multi-sEMG Wavelet Map DB2和DB3中17种手势动作的平均准确率分别达到了96.40%和94.11%,相比ResNet50网络模型方法提升了4.87%和5.83%。实现了手势动作在类别繁多、相似度较高的情况下的精准识别。为基于非侵入式传感器和机器学习控制的假肢手提供了新方案。

基于特征图像组合与改进ResNet-18的电能质量扰动识别方法

针对传统电能质量扰动(power quality disturbance,PQD)识别体系中单一图像特征信息受限与算法识别能力不足等问题,依据特征融合的思想,提出一种基于特征图像组合与改进ResNet-18的PQD识别方法。首先,对PQD信号进行变分模态分解(variational mode decomposition,VMD)得到一系列固有模态函数(intrinsic mode functions,IMFs)与残差分量;其次,将IMFs、残差分量、原始扰动信号与Subtract分量纵向拼接成分量矩阵,利用信号-图像转化方法生成特征分量彩色图;再次,对原始扰动信号进行连续小波变换(continuous wavelet transform,CWT)生成小波时-频图;最后,将特征分量彩色图与小波时-频图组合输入改进的六通道ResNet-18中训练学习并完成扰动识别。通过仿真对PQD识别方法进行分析并将其与目前常用识别体系进行比较。结果表明,所提方法具有较好的抗噪性能并且能够更好地提取PQD特征信息,达到更高的识别准确率。

多导联心电图识别的稳定步长ResNet深度网络

针对经典的ResNet深度神经网络对一维多导联心电图图像进行识别、分类时,因原始图像的维度较高导致提取到的深度特征维度高,造成全连接层训练出现收敛速度慢和过拟合的问题,在ResNet的全连接层提出一种稳定步长动量训练算法,通过引入近似二阶梯度信息增强动量法的寻优能力和加速收敛速度;利用连续2次迭代的参数变化量和梯度信息自适应调整步长,构造边界函数对步长的大小进行限制,以防止步长过大或过小而影响收敛稳定性,使用动量项对参数的更新方向进行修正。在CPSC2018心电图数据集上的实验结果表明:所提算法训练的ResNet取得的F 1分数、准确率、精确度分别达到0.859、97.4%、87.9%,收敛速度和整体分类指标值优于其他相比较的方法。

Multi-Objective Prediction and Optimization of Vehicle Acoustic Package Based on ResNet Neural Network

Vehicle interior noise has emerged as a crucial assessment criterion for automotive NVH(Noise,Vibration,and Harshness).When analyzing the NVH performance of the vehicle body,the traditional SEA(Statistical Energy Analysis)simulation technology is usually limited by the accuracy of the material parameters obtained during the acoustic package modeling and the limitations of the application conditions.In order to effectively solve these shortcomings,based on the analysis of the vehicle noise transmission path,a multi-level objective decomposition architecture of the interior noise at the driver’s right ear is established.Combined with the data-driven method,the ResNet neural network model is introduced.The stacked residual blocks avoid the problem of gradient dis-appearance caused by the increasing network level of the traditional CNN network,thus establishing a higher-precision prediction model.This method alleviates the inherent limitations of traditional SEA simulation design,and enhances the prediction performance of the ResNet model by dynamically adjusting the learning rate.Finally,the proposed method is applied to a specific vehicle model and verified.The results show that the proposed meth-od has significant advantages in prediction accuracy and robustness.

基于UNet-ResNet14^(*)半监督学习的无人机影像森林树种分类

无人机遥感在森林树种精细和高效分类制图中具有巨大的潜力。为了快速准确获取森林的优势树种分布信息,该研究探讨了半监督学习方法在树种分类方面的有效性。以福建省福州市、龙岩市和三明市的4个试验区为例,构建精简的ResNet18为主干的UNet树种分类模型(UNet-ResNet14^(*)),使用交叉熵和Dice系数的联合损失函数来优化模型参数,对比分析Self-training和Mean Teacher两种不同的半监督学习方法在无人机影像森林树种分类模型的泛化能力。结果表明,以ResNet14^(*)作为主干的分类模型与其他模型相比精度更高且预测速度更快,当联合损失函数权重值为0.5的情况下模型预测效果最好,总体精度达到了91.15%。经过Self-training的模型在木荷、马尾松、杉木3个样本充足的类别中精度均有所提升,总精度为91.08%,比原始模型略低,但在独立验证区的精度为88.50%,比原始模型高;Mean Teacher方法的总精度为88.56%,在独立验证区的精度为73.56%。因此,研究认为可以采用Self-trainin半监督方法结合UNet-ResNet14^(*)的方案快速得到试验区的树种组成信息。

基于CNN-BiGRU-ResNet的网络入侵检测研究

网络入侵检测是网络安全中的一项重要工作,其主要是通过网络、系统等信息对入侵行为进行判断,它可以及时地发现网络中的攻击行为,传统的网络入侵检测方法存在准确率低并且误报率高的问题,针对上述问题,提出了一种融合双向门控循环单元(BiGRU)、卷积神经网络(CNN)以及残差网络(ResNet)的网络入侵检测方法,该方法通过双向门控循环单元对时间序列特征以及卷积神经网络和残差网络对局部空间特征的提取,利用softmax分类器获得最终的分类结果。实验表明,与基于GRU和ResNet等方法相比,该方法的网络入侵检测效果比较好,其准确率较高,误报率更低。

基于ResNet34模型的大菱鲆鱼苗识别计数方法

鱼苗数量的精准统计对提升苗种品质评价、养殖密度估算、鱼苗销售等环节的智能化水平具有重要作用。针对大菱鲆鱼苗个体小、透明度高以及体型不规则等影响计数精准度的问题,提出了一种基于ResNet34的大菱鲆鱼苗识别计数方法。首先,设计了一套适用于微小目标计数需要的图像采样装置,采用图像预处理方法实现鱼苗前景分割和初步定位。为了有效统一样本空间和待识别目标空间,利用最小外接矩规则化初步定位前景图像,构建图像样本集。大菱鲆鱼苗识别阶段,利用相同预处理方法获取待识别目标区域,并引入ResNet34模型作为识别模型实现待识别目标区域苗种识别;最后,通过统计所有待识别目标识别数量结果实现大菱鲆苗种计数。结果显示:本方法在微小鱼苗识别计数方面取得了较好的精度,利用ResNet34模型的大菱鲆鱼苗的识别平均准确率达到94.27%,比基于SVM方法(识别精度85.8%)和AlexNet(识别精度87.04%)方法识别精度分别提高7.4个百分点和8.64个百分点,优于ResNet18(识别精度93.21%)和ResNet50(识别精度93.83%)等相似结构的识别效果。本模型鱼苗计数的平均准确率达到96.28%。研究表明,提出的样本集构建和识别方法能够满足微小目标计数需求,可为鱼类苗种计数提供了技术借鉴。

基于改进ResNet网络和迁移学习的服装图像风格识别研究

传统的服装图像风格识别方法主要依赖于成功提取有效特征,这些方法在处理图像时不仅会消耗大量的时间和精力,识别精度也较低。为了提高服装图像风格识别的性能,提出了一种基于改进的ResNet152网络和迁移学习的服装图像风格识别方法。首先将ResNet152网络首层结构中的7×7卷积核替换成3个3×3卷积核组合层,其次把原始残差单元中的“卷积层(Conv)+批归一化层(BN)+非线性激活函数层(Relu)”的组合方式换成“批归一化层(BN)+非线性激活函数层(Relu)+卷积层(Conv)”的组合方式。这两个改进方法有效地提升了网络性能,使其能够更好地捕捉不同尺度的服装风格特征。然后把在ImageNet数据集上训练好的ResNet152网络模型参数迁移到改进的网络中,在此基础上,将女童服装数据集输入到网络中进行训练验证以及微调网络参数。结果表明,所提出的方法风格识别准确率达到了94.2%,训练效果好,识别精度、收敛速度等均优于其他风格识别网络,可以更好的完成女童服装风格识别任务。

基于ECA-ResNet的热轧钢表面缺陷在线识别

基于视觉注意力机制对ResNet模型进行改进,设计了ECA-ResNet网络模型,对热轧钢表面缺陷进行在线识别。该模型在提高检测精度的同时,其推理速度也符合热轧钢生产线对实时性的要求。实验结果表明,ECA-ResNet模型的在线识别精度为98.1%,比经典ResNet网络提高了3.9个百分点。消融实验和对比实验说明,融合ECA注意力模块的ResNet网络的综合性能优于融合CBAM或SE注意力模块的ResNet网络,也优于经典ResNet网络、VGG-16网络和GoogLeNet网络,符合热轧钢表面缺陷的在线识别要求,具有良好的应用前景。

IRMIRS:Inception-ResNet-Based Network for MRI Image Super-Resolution

Medical image super-resolution is a fundamental challenge due to absorption and scattering in tissues.These challenges are increasing the interest in the quality of medical images.Recent research has proven that the rapid progress in convolutional neural networks(CNNs)has achieved superior performance in the area of medical image super-resolution.However,the traditional CNN approaches use interpolation techniques as a preprocessing stage to enlarge low-resolution magnetic resonance(MR)images,adding extra noise in the models and more memory consumption.Furthermore,conventional deep CNN approaches used layers in series-wise connection to create the deeper mode,because this later end layer cannot receive complete information and work as a dead layer.In this paper,we propose Inception-ResNet-based Network for MRI Image Super-Resolution known as IRMRIS.In our proposed approach,a bicubic interpolation is replaced with a deconvolution layer to learn the upsampling filters.Furthermore,a residual skip connection with the Inception block is used to reconstruct a high-resolution output image from a low-quality input image.Quantitative and qualitative evaluations of the proposed method are supported through extensive experiments in reconstructing sharper and clean texture details as compared to the state-of-the-art methods.

基于ResNet模型的松材线虫病变色疫木识别方法研究

本文使用配备高分辨率RGB数码相机的无人机,在松林上空捕捉具有高空间分辨率的航空影像,并对获取的可见光正射影像进行高程和地形特征的预处理,提取纹理信息后采用ResNet神经网络进行分类和识别训练。最终,采用深度卷积网络训练的模型对松材线虫病变色疫木进行智能识别。结果显示,平均准确率为92.29%,识别精确率最高可达96.51%,同步验证了基于ResNet模型的松材线虫病变色疫木识别方法研究的可行性,以期为松材线虫病防治提供参考。

基于改进YOLOv5-ResNet的海上舰船SAR图像快速检测

在恶劣天气和海浪等自然因素的影响下,基于可见光数据进行舰船目标监测等手段往往难以有效开展,需要借助主动式微波成像卫星合成孔径雷达(SAR)进行图像解译。为了解决深度学习在处理数据集较小图像上无法准确提取特征及数据相似度较高的问题,基于YOLOv5-ResNet提出了一种跨尺度融合机制,重新定义损失函数。研究表明,识别SAR舰船目标的准确率有一定的提升:识别单目标舰船检测最高准确度达到93%,同比YOLOv5提升4%,比YOLOv5-ResNet50提升20%;在近岸舰船目标检测上,有效降低了由于数据集质量不佳、模型训练方法不当等造成误差率的非必要上升。

基于格拉姆角场与ResNet的输电线路故障辨识方法

针对如何利用实际故障录波数据,提取和放大故障特征差异,开展故障类型与故障原因辨识的问题,提出了基于格拉姆角场与迁移学习-ResNet的输电线路故障辨识方法。首先,统计分析了输电线路故障类型和故障原因的分布特征,用于指导构建适用于类不平衡问题的故障分类器。然后,利用格拉姆角场变换将采集得到的故障电压、电流时序信号转化为格拉姆角场图像,放大故障特征差异,作为故障分类器的输入。进一步,将生成的图像集输入搭建好的故障分类器进行网络训练和测试,输出输电线路故障类型和故障原因。最后,完全采用真实故障录波数据开展了算例分析。结果表明:所提方法对故障类型的辨识准确率达到了97.51%,对故障原因的辨识准确率达到了94.23%。并且将训练的故障辨识网络迁移至其他地区时,仍然具有较好的故障辨识效果和泛化性能。所提方法为基于暂态波形数据驱动的故障辨识提供了新方法,可以用于实际电网的输电线路故障辨识。

基于ResNet和ViT双流网络的小麦病虫害识别

针对小麦病虫害识别过程中,传统深度学习模型表现不稳定、识别精度低、泛化能力有限的现状,提出了新的双流网络模型,即结合ResNet和ViT以提高识别准确性。该方法融合了卷积神经网络处理图像局部结构,同时利用Transformer捕捉长距离依赖关系,改进了识别性能。通过2070张小麦病虫害图片数据集训练验证,调整ResNet50和ViT预训练模型参数,结果显示,双流模型在训练集上达96.5%准确率,在验证集获0.94的F_(1)分数,明显优于其他主流单一模型。结果证实,新模型在小麦病虫害识别卓越性能,为其在智能农业系统中广泛应用提供潜力。

Pluggable multitask diffractive neural networks based on cascaded metasurfaces

Optical neural networks have significant advantages in terms of power consumption,parallelism,and high computing speed,which has intrigued extensive attention in both academic and engineering communities.It has been considered as one of the powerful tools in promoting the fields of imaging processing and object recognition.However,the existing optical system architecture cannot be reconstructed to the realization of multi-functional artificial intelligence systems simultaneously.To push the development of this issue,we propose the pluggable diffractive neural networks(P-DNN),a general paradigm resorting to the cascaded metasurfaces,which can be applied to recognize various tasks by switching internal plug-ins.As the proof-of-principle,the recognition functions of six types of handwritten digits and six types of fashions are numerical simulated and experimental demonstrated at near-infrared regimes.Encouragingly,the proposed paradigm not only improves the flexibility of the optical neural networks but paves the new route for achieving high-speed,low-power and versatile artificial intelligence systems.