Oxidation Behavior of C/C-SiC Gradient Matrix Composites

Oxidation behavior of C/C-SiC gradient matrix composites and C/C composites were compared in stationary air. The results show that oxidation threshold of C-SiC materials increases with the amount of SiC particles in the codeposition matrix. Oxidation rate of C/C-SiC gradient matrix composites is significantly lower than that of C/C material. The micro-oxidation process was observed by SEM.

On the homogenization of metal matrix composites using strain gradient plasticity

The homogenized response of metal matrix composites（MMC） is studied using strain gradient plasticity.The material model employed is a rate independent formulation of energetic strain gradient plasticity at the micro scale and conventional rate independent plasticity at the macro scale. Free energy inside the micro structure is included due to the elastic strains and plastic strain gradients. A unit cell containing a circular elastic fiber is analyzed under macroscopic simple shear in addition to transverse and longitudinal loading. The analyses are carried out under generalized plane strain condition. Micro-macro homogenization is performed observing the Hill-Mandel energy condition,and overall loading is considered such that the homogenized higher order terms vanish. The results highlight the intrinsic size-effects as well as the effect of fiber volume fraction on the overall response curves, plastic strain distributions and homogenized yield surfaces under different loading conditions. It is concluded that composites with smaller reinforcement size have larger initial yield surfaces and furthermore,they exhibit more kinematic hardening.

The Corrected Expressions for the Four-Pole Transmission Matrix for a Duct with a Linear Temperature Gradient and an Exponential Temperature Profile

The purpose of this letter is to present the corrected expressions for the four-pole transmission matrix for a duct with a linear temperature gradient and an exponential temperature profile, described in Sujith [1]. The corrected equations are used in the analyses of a duct that is driven by a piston at one end and a rigid termination at the other end and the gas has a linear and exponential temperature gradients. The acoustic pressure and particle velocity along the duct are calculated and the theoretical results are compared with predictions using finite element analysis.

Improved gradient iterative algorithms for solving Lyapunov matrix equations

In this paper, an improved gradient iterative （GI） algorithm for solving the Lyapunov matrix equations is studied. Convergence of the improved method for any initial value is proved with some conditions. Compared with the GI algorithm, the improved algorithm reduces computational cost and storage. Finally, the algorithm is tested with GI several numerical examples.

基于应变梯度理论的切削加工SiCp/Al表面创成机理分析

为了深入研究颗粒增强铝基复合材料的切削过程,对45%体积分数的SiCp/Al复合材料通过多相建模的方法建立了基于应变梯度的本构模型,并对软件ABAQUS进行了二次开发,用程序语言将所建本构模型以及描述断裂的B-W断裂准则编入用户子程序VUMAT,并导入ABAQUS进行仿真分析。结合切削实验和仿真分析结果,研究了在相同切削速度及不同切削深度下SiCp/Al复合材料加工表面温度、材料内部应力应变和位错的变化情况。研究结果表明,相较于传统Johnson-Cook模型,修正后的本构模型所得到的结果与实验结果更加吻合;切削深度增大会引发高温梯度;材料内部应力会在颗粒附近形成应力集中;在加工表面应变较大的区域出现大量位错,导致加工颗粒增强金属基复合材料的难度上升。

压电复合材料梯度分布声学特性研究

目前,压电复合材料在吸声降噪领域应用广泛,但其低频吸声性能并不理想。为解决此问题,以0-3型压电复合材料为研究对象,提出使压电陶瓷体积含量呈梯度分布以提高其低频吸声系数的方法。首先,基于声电类比法和传递矩阵法,推导多梯度分布的理论公式,并通过文献构型对其进行验证;其次,将均匀分布与梯度分布的吸声系数进行比较,发现梯度分布会改变材料的声阻抗,从而改变吸声系数。最后,进行梯度分布压电复合材料数值分析,结果表明,同等条件下,当压电陶瓷体积含量呈梯度递减,且梯度差和第一梯度的厚度增加时,可明显提高低频吸声系数。

结合局部纹理特征滤波的海天线检测方法

针对视频监测下海天线检测图像易出现的海天对比度低、海上物体、海雾、海浪及云层等干扰条件引起的图像模糊和海天线遮挡问题,提出一种基于偏心邻域的灰度共生矩阵对比度滤波的梯度域下海天线检测方法。方法设计使用上下两方向偏心盒状滤波器获取图像的对比度梯度值图,利用滑动窗对分块图像搜索梯度极大值候选位置,根据设计策略通过构建海天线参数的概率统计模型提取拟合直线作为检测结果。仿真实验表明,本文方法能提升视觉图像下含多景物等干扰的复杂场景海天线检测的准确率,与同类方法相比提升7.69%。

超重力对梯度Al-Zn-Mg-Cu合金成分和微观组织的影响

提出了一种制备梯度Al-Zn-Mg-Cu合金的新方法,通过优化实验的工艺参数,在超重力降温离心的条件下结合定向凝固工艺获得具有梯度的成分含量、显微组织及力学性能。基于合金的析出特性,利用超重力技术和温度梯度区间实现冷却凝固过程中α-Al析出相和共晶T相的高效分离,大部分的α-Al析出相集中在试样顶部,而共晶组织主要分布在试样底部。不同密度的析出相在超重力的作用下分布于样品的不同位置,使得增大重力系数和扩大温度梯度有利于获得梯度范围更大的材料。结果表明,在超重力的条件下,降温离心可以在短时间内获得梯度铝合金,从而为梯度铝合金材料的制备提供了新的工艺手段和思路。

Conjugate gradient and cross-correlation based least-square reverse time migration and its application

Although conventional reverse time migration can be perfectly applied to structural imaging it lacks the capability of enabling detailed delineation of a lithological reservoir due to irregular illumination. To obtain reliable reflectivity of the subsurface it is necessary to solve the imaging problem using inversion. The least-square reverse time migration （LSRTM） （also known as linearized refleetivity inversion） aims to obtain relatively high-resolution amplitude preserving imaging by including the inverse of the Hessian matrix. In practice, the conjugate gradient algorithm is proven to be an efficient iterative method for enabling use of LSRTM. The velocity gradient can be derived from a cross-correlation between observed data and simulated data, making LSRTM independent of wavelet signature and thus more robust in practice. Tests on synthetic and marine data show that LSRTM has good potential for use in reservoir description and four-dimensional （4D） seismic images compared to traditional RTM and Fourier finite difference （FFD） migration. This paper investigates the first order approximation of LSRTM, which is also known as the linear Born approximation. However, for more complex geological structures a higher order approximation should be considered to improve imaging quality.

3.0T HR-MRI联合血清MMP9、AGR2对宫颈癌FIGO分期诊断价值

目的:探讨3.0T高分辨磁共振成像(HR-MRI)联合血清基质金属蛋白9(MMP9)、前梯度蛋白2(AGR2)诊断宫颈癌FIGO分期价值。方法:选取2016年3月-2022年10月本院诊疗的122例宫颈癌患者临床资料,依据FIGO分期系统分为Ⅰ~Ⅱ期64例、Ⅲ~Ⅳ期58例,均行3.0T HR-MRI检查,并采用酶联免疫吸附法检测血清MMP9、AGR2水平。采用一致性Kappa检验分析HR-MRI单独及联合血清MMP9、AGR2与术后病理结果的一致性,并绘制受试者工作特征(ROC)曲线分析各指标诊断宫颈癌FIGO分期效能;结果:FIGO分期Ⅲ~Ⅳ期宫颈癌患者血清MMP9、AGR2水平高于Ⅰ~Ⅱ期患者(P<0.05)。血清MMP9、AGR2诊断宫颈癌Ⅰ~Ⅱ期与Ⅲ~Ⅳ期的曲线下面积(AUC)分别为0.789(95%CI0.708-0.869)、0.836(95%CI0.765-0.906),特异度分别为76.6%、73.4%,敏感度分别为72.4%、81.3%,截断值分别为178.83ng/ml、13.18ng/ml。HR-MRI检查与术后病理结果一致性较高,Kappa值为0.739,HR-MRI联合血清MMP9、AGR2检查与术后病理结果一致性极高,Kappa值为0.868(均P<0.05)。HR-MRI联合血清MMP9、AGR2诊断宫颈癌患者FIGO分期的特异度(95.3%)、阳性预测值(94.6%)显著高于各单独指标诊断,敏感度(91.4%)、阴性预测值(92.4%)高于血清MMP9,准确度(93.4%)高于血清MMP9、AGR2(P<0.05)。结论:3.0T HR-MRI联合血清MMP9、AGR2对宫颈癌FIGO分期的诊断价值较高。

一种求解低秩矩阵补全的修正加速近端梯度算法

设计适应大规模数据的快速算法是求解低秩矩阵补全的重点。文章改变了加速近端梯度算法的步长,对近似函数的近端最优点和上一迭代点增加了一个仿射组合。通过控制仿射系数,能够使得到的新迭代点有靠近原函数的趋势,进而能在保持算法精度的同时提高算法效率。最后通过相应的数值实验证明了算法的有效性和稳定性。

两阶段非负矩阵分解算法及其在光谱解混中的应用

非负矩阵分解问题(nonnegative matrix factorization,NMF)模型已成功应用至高光谱遥感影像处理中的光谱解混工作,由于NMF优化模型具有多个局部极小点,使得分解结果不稳定。设计初始化方法或者选择带正则项的问题模型是提高分解精度的两种常用方法。本文提出了两阶段的NMF算法,实现了初始点选取和正则项设计的结合。第一阶段借助k-均值获得k个聚类中心,给出迭代的初始点;利用第一阶段的初始矩阵U^(0),定义了针对端元矩阵的正则项‖U-U^(0)‖_(F)^(2),第二阶段采用基于交替非负最小二乘框架的投影梯度算法,求解新的正则化NMF问题。正则项中的端元初始矩阵U^(0)除了采用k-均值获得k个聚类中心,也可采用真实地物光谱,它的引入提高了算法的灵活度。数值结果表明新算法更加稳定,且分解的精确性有效提高。

基于分数阶偏微分的数字图像滤波去噪仿真

受多种因素影响,数字图像会呈现出不同程度的噪声图斑,导致图像质量、清晰度降低,加大了图像分析、检测、分割等难度,为此,提出基于偏微分方程的图像自适应滤波去噪算法。区分图像噪声点和非噪声点,检测图像的边缘特征,提高算法对边缘的保留能力;构建分数阶偏微分方程模型,通过模型完成对图像的自适应滤波去噪处理。选取含有不同程度的噪声图像对所提方法展开实验测试,结果表明,所提方法可以有效去除图像中的冗余噪声,使图像整体质量得到大幅度提升。

基于故障全电流多阶突变的换流器并网线路纵联保护

电力电子换流器的引入改变了传统电网的故障特性,当交流线路发生故障后传统差动保护难以满足保护需求,易出现灵敏度降低甚至拒动风险。针对此问题,提出基于故障全电流多阶突变的交流线路保护原理。该保护以故障发生后线路两侧电流波形形变特征、突变特征的规律变化为基础,通过矩阵梯度算法对两侧全电流信号进行突变特征值的提取,即对两侧全电流信号的突变程度进行描述,进而构造纵联保护。相比于传统暂态量的快速保护无须提取固定频段特征,所提方法克服了在短路电流受控情况下利用周期分量算法无法精准提取固定暂态量的问题,相比于直接采用常规暂态信号的保护,具备较好的耐受过渡电阻以及噪声的能力。最后在PSCAD/EMTDC中搭建了换流器并网系统的仿真模型并校验了保护的有效性,所提保护故障识别时间小于7.5ms,即使在经100Ω的过渡电阻故障情况下,仍然具有较高的灵敏度,能较好地满足换流器并网线路对保护速动性与选择性的需求。

基于正则化正交非负矩阵分解的旋转目标检测方法

小样本的旋转目标检测是指在样本数少的情况下进行旋转目标检测模型的训练,深度学习在旋转目标检测领域往往需要庞大的样本数和计算算力。现有的基于机器学习的旋转目标检测方法大多有着对目标尺度和姿态敏感的缺点。因此提出一种基于正则化正交非负矩阵分解的旋转目标检测方法,来解决小样本的旋转目标检测难题。首先,针对样本不具有各种角度的图片,对样本进行旋转后进行背景填充,这样便于更好的表征学习。其次,提出一种基于正则化正交非负矩阵分解算法对旋转样本的梯度直方图特征进行表征学习。最后,为了测试算法在特征学习后的有效性,利用支持向量机对特征提取后的数据进行训练和测试。实验结果表明本文的目标检测方法在多个数据集中可以取得不错的效果。

特征提取中一类矩阵迹函数极值问题的黎曼优化算法

研究来源于特征提取中的一类鲁棒判别回归模型,该模型问题可以重构为Stiefel流形和线性流形组成的乘积流形约束下的一类矩阵迹函数极小化问题.整合紧流形和线性流形,结合乘积流形几何性质,本文设计适用于求解重构问题简化版本的一类基于Zhang-Hager技术拓展的乘积流形黎曼非线性共轭梯度法,并给出算法全局收敛性分析.数据实验表明所提算法对于问题求解是高效可行的,且与已有算法、其它黎曼梯度类算法及黎曼优化工具箱中已有的黎曼一阶和二阶算法相比在迭代解精度或迭代效率上有一定优势.

基于用户属性和生成对抗网络的推荐系统

为提升推荐精度,解决传统推荐算法在用户评分向量中存在的未评分项语义模糊造成的推荐精度下降问题,提出一种基于用户属性的条件生成对抗网络的推荐方法。将用户的属性特征进行提取和编码,并作为生成对抗网络的条件,通过这种明确信号指导用户偏好的生成并进行推荐。在两个公开的电影评分数据集上进行实验,实验结果表明,所提方法可以有效改善推荐精度,在各评价指标上均优于现有方法,具有一定实用价值。

基于相关滤波的铁路异物侵限跟踪方法研究

针对铁路异物侵限频繁发生导致的列车运行安全问题,提出一种基于背景感知相关滤波器的铁路异物侵限跟踪方法。利用方向梯度直方图(HOG,Histogram of Oriented Gradient)特征提取铁路侵限异物自身特征,结合剪裁矩阵,以增加视频帧中实际背景的负样本;使用交替方向乘子法(ADMM,Alternating Direction Method of Multipliers)训练背景感知相关滤波器,减少计算复杂度,在保证跟踪速度的前提下,提升跟踪侵限异物的准确性,从而适应铁路沿线环境中由于侵限异物的形变、快速移动或天气等原因造成的目标丢失及跟踪框漂移等情况。实验结果表明,该方法对铁路侵限异物的跟踪精确度和AUC(Area Under Curve)值分别达到93%和71.9%,均高于SRDCF、KCF、ASLA和CSK等算法,具有更好的准确性。

基于共轭梯度法的空时抗干扰算法研究

由于卫星导航信号功率很小,所以卫星导航信号具有易受干扰的特点,目前卫星导航抗干扰算法主要用到的是协方差矩阵求逆的方法,比如空域和空时抗干扰算法,然而随着天线阵元数的增加和空时抽头数的增加,矩阵维数也随之增加,导致运算量的上升,而共轭梯度法可以避免高维矩阵求逆,且具有收敛快,计算量小的特点,因此基于共轭梯度法的求解空时抗干扰算法,并通过仿真分析证明所提方法的有效性。

PARTICULATE SIZE EFFECTS IN THE PARTICLE-REINFORCED METAL-MATRIX COMPOSITES

The influences of I,article size on the mechanical properties of the particulate metal matrix composite;are obviously displayed in the experimental observations. However, the phenomenon can not be predicted directly using the conventional elastic-plastic theory. It is because that no length scale parameters are involved in the conventional theory. In the present research, using the strain gradient plasticity theory, a systematic research of the particle size effect in the particulate metal matrix composite is carried out. The roles of many composite factors, such as: the particle size, the Young's modulus of the particle, the particle aspect ratio and volume fraction, as well as the plastic strain hardening exponent of the matrix material, are studied in detail. In order to obtain a general understanding for the composite behavior, two kinds of particle shapes, ellipsoid and cylinder, are considered to check the strength dependence of the smooth or non-smooth particle surface. Finally, the prediction results will be applied to the several experiments about the ceramic particle-reinforced metal-matrix composites. The material length scale parameter is predicted.