Ⅰ型倍增层对异质SAM结构InSb-APD红外探测器性能的影响

红外探测器的光电特性会受到内部结构倍增层参数的影响,为了能够改善器件的雪崩效应,借助仿真软件Silvaco-TCAD,详细探讨了Ⅰ型倍增层的残余掺杂浓度和厚度对异质SAM结构InSb-APD红外探测器性能的影响。研究结果表明,随着Ⅰ型倍增层掺杂浓度的增加,其倍增层内的电场强度峰值增加,同时光响应度略微增加;随着Ⅰ型倍增层厚度的增加,其倍增层的光响应度与暗电流密度升高,同时电场强度峰值减少。进一步研究表明,当Ⅰ型倍增层残余掺杂浓度和厚度分别为1×10^(15)cm^(−3)和3μm时,有利于雪崩过程。

结合SAM大模型和数学形态学的历史地图水系信息提取方法

历史地图记载着丰富的历史地理信息,能够帮助了解历史规律,为当代发展提供借鉴。不同于现代地图、遥感影像等数据,历史地图保存时间久,存在留存数量少、图像精度低等问题,地图符号也与现代有所差异,因此信息难以被高效提取。针对该问题,本文以历史地图《宁夏省境黄河沿岸沟渠水道地形图》为试验数据,提出一种智能化历史地图水系信息提取方法。首先,结合符号句法,运用聚类与数学形态学方法构建数据集;然后,改进通用大模型(SAM)结构并进行迁移学习优化权重;最后,借助改进SAM自动提取历史地图水系信息。将试验结果与其他模型作对比,显示本文方法提取结果边界清晰,轮廓完整,准确率、精度等指标均为最高。同时,将提取结果与该区域水系现状作对比,发现历史上的河流沟渠如今大多改道、偏移或消失,湖泊面积大大减小。本文方法基于SAM通用大模型进行改进,验证了大模型在地图领域的可用性,为地图信息提取提供了思路。

SAM在遥感影像通用语义分割中的应用

Segment Anything Model(SAM)是Meta公司最新发布的一个处理图像分割任务的通用模型,与FCN、U-Net等只能处理特定类型图片的图像分割模型不同,SAM具有较强的泛化能力。本文简述了目前主要的图像分割模型及特点,提出了基于SAM的遥感影像通用语义分割方法,研发了软件平台,并详细阐述了各功能模块的设计思路。实践表明,SAM在遥感影像通用分割方面具有良好的应用效果,研究成果在自然资源调查监测、农作物种植结构提取等工作中得到广泛应用。

新几内亚凤仙CCoAOMT和SAMS基因的克隆及表达分析

通过对新几内亚凤仙(Impatiens hawkeri)指甲花醚合成相关基因CCoAOMT和SAMS的克隆及表达分析,以期为解析其合成途径提供一定的理论依据。基于新几内亚凤仙指甲花醚含量测定和转录组测序数据分析,克隆到1个CCoAOMT和2个SAMS基因,将其命名为IhCCoAOMT、IhSAMS1和IhSAMS2。3种处理(光培养、暗培养和前体物DHNA (1,4-dihydroxy-2-naphthoate)诱导)均能促进指甲花醚积累,且暗培养处理最佳。IhCCoAOMT的cDNA全长为729 bp,编码242 aa,其蛋白具有AdoMet_MTases超家族结构域;IhSAMS1和IhSAMS2的cDNA全长分别为1179 bp和1173 bp,分别编码393 aa和391 aa,其蛋白均具有S-AdoMet_synt超家族结构域。系统进化分析表明,IhCCoAOMT与喜马拉雅凤仙亲缘关系最近;IhSAMS1与IhSAMS2可能为旁系同源。qRT-PCR分析表明,3个基因在新几内亚凤仙的3个处理及4个时期中均有表达,其中IhCCoAOMT在暗培养及前体物DHNA诱导中表达量整体上调,且暗培养第60天时表达量最高;IhSAMS1和IhSAMS2在暗培养及DHNA诱导中表达量整体下调,但IhSAMS1在DHNA诱导中表达量较高,IhSAMS2在暗培养中表达量较高。综上所述,推测IhCCoAOMT在指甲花醚处理后期起主要作用,IhSAMS1和IhSAMS2在其早期起主要作用,且IhSAMS2作用更为显著。

基于SAM&ImageJ图像处理的堆石混凝土坝层面露石率研究

堆石混凝土坝层面的外露块石为上下层提供了重要的啮合作用,其投影面积比例是科学评价层间抗剪性能的重要指标。采用国际最新Meta AI模型segment anything model(SAM)对层面外露堆石进行自动图像分割,并基于ImageJ软件对SAM识别后的图片进行再加工与图像计算,利用平滑、差分算法、中值滤波等方法精准标定外露堆石,二值化后计算得到层面露石率。结果表明:SAM图像预分割可识别约90%的外露堆石,经过ImageJ二次图像处理后可有效提高小粒径堆石的识别精度,对比手动标注结果误差在±3%以内。以贵州省两座水库的工程应用为例,对浇筑仓面进行分区预处理,结果发现靠近上游、中部、下游不同区域的露石率差别较大,计算得到的层面露石率以10%~30%居多,其中堆石入仓运输通道区域的露石率较低。研究内容与结论可为堆石混凝土结构层间界面抗剪力学性能和大坝蓄水安全稳定的研究提供参考与借鉴。

基于时差提示SAM的遥感变化检测

遥感变化检测作为观测和分析地表变化的重要手段,以双时相图像为输入,旨在预测变化发生的“位置”。近期出现的基础模型,例如SAM模型(Segment Anything Model),展现出强大的通用性和泛化能力,有望为变化检测任务提供更为有效的解决方案。然而,由于遥感图像的特殊成像特性,它们在许多遥感应用中的直接使用往往效果不佳。此外,SAM模型最初被设计用于分割单时相图像,其通过人工添加点或框的提示来实现,但这种过于直观的方法在处理双时相图像输入时并不适用。为了应对上述挑战,本文提出了一种基于时差提示SAM的遥感变化检测方法(TDPS),充分发挥SAM模型强大的视觉识别能力,以改进对遥感图像的变化检测。具体而言,本文首先在SAM骨干网络中引入了低阶可微调参数,以减轻自然图像到遥感图像上的域偏移。其次,本文设计了时相差异提示生成器,通过将双时相图像的特征与查询嵌入一起优化,得到适用于变化检测任务的提示向量。最后,大量实验证明了本文方法的有效性,在两个常用的变化检测数据集LEVIR-CD和WHU-CD上取得了最先进的性能,F1指标相比于最先进方法分别提升了1.4%和2.5%。

SAM Era:Can It Segment Any Industrial Surface Defects?

Segment Anything Model(SAM)is a cutting-edge model that has shown impressive performance in general object segmentation.The birth of the segment anything is a groundbreaking step towards creating a universal intelligent model.Due to its superior performance in general object segmentation,it quickly gained attention and interest.This makes SAM particularly attractive in industrial surface defect segmentation,especially for complex industrial scenes with limited training data.However,its segmentation ability for specific industrial scenes remains unknown.Therefore,in this work,we select three representative and complex industrial surface defect detection scenarios,namely strip steel surface defects,tile surface defects,and rail surface defects,to evaluate the segmentation performance of SAM.Our results show that although SAM has great potential in general object segmentation,it cannot achieve satisfactory performance in complex industrial scenes.Our test results are available at:https://github.com/VDT-2048/SAM-IS.

基于SAM分割的交互式局部图像风格迁移方法研究

针对目前局部图像风格迁移目标区域选择困难、迁移灵活性不足、容易出现内容泄露、前景与背景边缘过渡不自然等问题,提出一种基于任意分割模型(Segment Anything Model,SAM)的交互式局部图像风格迁移方法。首先利用SAM分割网络在用户输入提示的指导下对输入的内容图像进行交互式目标迁移区域提取,对得到的有效对象掩码进行二值化处理,以二值化掩码提取全局风格化图像的目标区域作为前景、内容图像作为背景图像进行泊松融合,实现局部图像风格迁移。为了避免迁移过程中的内容泄露,全局风格迁移网络采用生成对抗网络架构,通过多级自适应注意力归一化模块进行风格特征转换,利用联合损失函数对网络进行综合训练。实验结果表明,设计的交互式局部图像风格迁移网络能够根据用户提示生成灵活可控的局部迁移结果,可以对图像中的任意物体进行风格迁移,迁移结果很好地保留了内容源图像中的内容结构,避免了内容泄露,且前景与背景边缘过渡更加自然。

基于无人机遥感和SAM的山区房屋提取研究

为了解决山地区域房屋信息难以高效准确提取的问题,以无人机遥感作为地理环境监测手段,采用新兴的人工智能与信息化技术,基于Segment Anything Model(SAM)进行房屋提取模型的构建,并在典型研究区进行房屋提取实验和结果分析,新方法在无人机遥感影像上CPA为0.9956,房屋IoU为0.8611,非房屋IoU为0.9954。研究表明,基于无人机遥感和SAM的山区房屋提取方法对于复杂地理环境具有较好的适应能力,能够有效挖掘房屋相关特征信息,提取的房屋具有形态完整、边缘准确的特点,可满足山区房屋信息获取相关要求。研究结果表明,该方法展现遥感技术和人工智能在山区治理相关工作应用潜力,能够为铁路线路选线、地质灾害防治提供新的信息化技术支持。

基于SAM的无人艇多源图像分割研究

针对无人艇多源传感器的图像分割问题,开展了结合图像分割大模型与大模型低成本微调技术的研究,以增强感知大模型在无人系统上的实用性。首先将分割大模型应用于无人艇可见光、红外和声学图像分割,并对其性能进行了比较。经对比发现,分割大模型对可见光和红外图像分割效果好,但对声学图像的分割性能存在严重下降。随后利用低秩自适应算法对分割大模型编码器部分进行了微调训练,以适应声学图像分割任务。微调后的分割大模型对声学图像的分割性能得到显著提升,Dice相似系数平均值相比初始分割大模型提高了52.88%,证明了方法的有效性。作为一种大模型的微调技术,低秩自适应算法使用低秩近似来降低权重矩阵维度,大幅减少模型中可训练的参数量,在提升训练效率的同时降低了训练成本。

Hepatoprotective effects of S-adenosyl-L-methionine against alcohol-and cytochrome P450 2E1-induced liver injury

S-adenosyl-L-methionine (SAM) acts as a methyl donor for methylation reactions and participates in the synthesis of glutathione. SAM is also a key metabolite that regulates hepatocyte growth, differentiation and death. Hepatic SAM levels are decreased in animal models of alcohol liver injury and in patients with alcohol liver disease or viral cirrhosis. This review describes the protection by SAM against alcohol and cytochrome P450 2E1-dependent cytotoxicity both in vitro and in vivo and evaluates mechanisms for this protection.

基于SAM教学系统设计模型的钉钉医学检验实践教学分层培训系统构建

目的基于钉钉构建医学检验实践教学分层培训系统。方法2019年3月—2021年12月,课题组以SAM教学系统设计模型为理论框架,分析检验学员实践教学分层培训需求,基于钉钉系统对宜宾市第二人民医院检验科检验实践教学分层培训系统功能进行设计、开发。结果2019年完成钉钉医学检验实践教学分层培训系统的构建,对培训系统进行试运行,通过评价反馈进一步改进。至2021年12月该系统开设了104个规培、进修、实习学员分层课程,共162人参与网上学习,3216人次自主完成课程学习并通过在线考核,培训人员满意度达98.15%。结论基于SAM教学系统设计模型的钉钉医学检验实践教学分层培训软件可以用于医学检验实践教学,值得进一步推广应用。

基于SAM敏捷迭代技术高职网络营销课程开发研究

SAM敏捷迭代技术非常符合数字化、信息化教学趋势下的3个特征:敏捷、体验、迭代。文章通过对国内外相关文献进行综述和分析,尝试探究SAM敏捷迭代技术在高职网络营销课程开发应用的可能性,阐述了SAM敏捷迭代模型——准备阶段、迭代设计阶段和迭代开发阶段的开发步骤。

S-Adenosyl-L-methionine towards hepatitis C virus expression: Need to consider S-Adenosyl-L-methionine's chemistry, physiology and pharmacokinetics

S-Adenosyl-L-methionine(SAM) is a cofactor serving as a methyl donor in numerous enzymatic reactions. It has been reported that SAM has the potential to modify antioxidant-enzymes, glutathione-biosynthesis and methionine adenosyltransferases-1/2 in hepatitis C virus-expressing cells at millimolar concentrations. The efficacy of SAM at micromolar concentrations and the underlying mechanisms remain to be demonstrated.

S-adenosyl-L-methionine modifies antioxidant-enzymes,glutathione-biosynthesis and methionine adenosyltransferases-1/2 in hepatitis C virus-expressing cells

AIM: To elucidate the mechanism(s) by which S-adenosyl-L-methionine(SAM) decreases hepatitis C virus(HCV) expression.METHODS: We examined the effects of SAM on viral expression using an HCV subgenomic replicon cell culture system. Huh7 HCV-replicon cells were treated with 1 mmol/L SAM for different times(24-72 h), then total RNA and proteins were isolated. c DNA was synthesized and real time-PCR was achieved to quantify HCV-RNA, superoxide dismutase 1 and 2(SOD-1, SOD-2) catalase, thioredoxin 1, methionine adenosyltransferase 1A and 2A(MAT1A, MAT2A) expression, and GAPDH and RPS18 as endogenous genes. Expression of cellular and viral protein was evaluated by western-blot analysis using antibodies vs HCV-NS5 A, SOD-1, SOD-2, catalase, thioredoxin-1, MAT1 A, MAT2 A, GAPDH and actin. Total glutathione levels were measured at different times by Ellman's recycling method(0-24 h). Reactive oxidative species(ROS) levels were quantified by the dichlorofluorescein assay(0-48 h); Pyrrolidin dithiocarbamate(PDTC) was tested as an antioxidant control and H2O2 as a positive oxidant agent.RESULTS: SAM exposition decreased HCV-RNA levels 50%-70% compared to non-treated controls(24-72 h). SAM induced a synergic antiviral effect with standard IFN treatment but it was independent of IFN signaling. In addition, 1 mmol/L SAM exposition did not modify viral RNA stability, but it needs cellular translation machinery in order to decrease HCV expression. Total glutathione levels increased upon SAM treatment in HCV-replicon cells. Transcriptional antioxidant enzyme expression(SOD-1, SOD-2 and thioredoxin-1) was increased at different times but interestingly, there was no significant change in ROS levels upon SAM treatment, contrary to what was detected with PDTC treatment, where an average 40% reduction was observed in exposed cells. There was a turnover from MAT1A/MAT2 A, since MAT1 A expression was increased(2.5 fold-times at 48 h) and MAT2 A was diminished(from 24 h) upon SAM treatment at both the transcriptional and translational level. CONCLUSION: A likely mechanism(s) by which SAM diminish HCV expression could involve modulating antioxidant enzymes, restoring biosynthesis of glutathione and switching MAT1/MAT2 turnover in HCV expressing cells.

SAM和ENSO对罗斯海和阿蒙森海区域冬季气候的影响

本研究利用ERA5数据对南半球环状模(SouthernAnnularMode,SAM)正、负位相和ENSO(El Ni?o-SouthernOscillation)事件发生时罗斯海和阿蒙森海冬季风场、气温和海平面气压进行合成分析,并深入分析了SAM和ENSO对冬季阿蒙森低压(Amundsen Sea Low,ASL)的影响,通过对典型区域进行经验正交分解(Empirical Orthogonal Function,EOF),结合ASL中心的位置变化,解释了SAM和ENSO事件同时发生时该区域风场的变化特征。结果表明,在罗斯海和西阿蒙森海,主要由SAM和ENSO通过影响ASL的纬向位置来影响该区域的风场,当SAM正位相和拉尼娜事件同时发生时,ASL的位置显著靠东,造成了西罗斯海南风减弱,东罗斯海南风加强,西阿蒙森海沿岸东风减弱。而在东阿蒙森海,主要由SAM通过影响ASL的经向位置来影响该区域的风场,SAM负位相时,ASL中心位置靠北会造成东阿蒙森海东风增强。此外,ASL位置的偏移也会造成该区域大气环流的改变,当SAM正位相和拉尼娜事件同时发生时,ASL偏移至西阿蒙森海沿岸,而从南极大陆来的寒冷气流主导了该区域,造成气温异常降低,降幅最大超过3℃。

AR+SAM在邮包测量上的应用研究

详细介绍了一种智能测量系统,该系统主要由终端App和后台服务器组成,可以实现对待测物体的快速和精确测量。在包裹揽收作业中,系统可以自动生成最小包围盒,准确计算物体的长、宽、高和体积,从而提升揽收效率,优化揽收流程,节约人力成本。

Bioinformatics and Functional Analysis of High Oleic Acid-Related Gene GmSAM22 in Soybean [Glycine max (L.) Merr.]

High yield,high quality,stable yield,adaptability to growth period,and modern mechanization are the basic requirements for crops in the 21st century.Soybean oleic acid is a natural unsaturated fatty acid with strong antioxidant properties and stability.Known as a safe fatty acid,it has the ability to successfully prevent cardiovascular and cerebrovascular disorders.Improving the fatty acid composition of soybean seeds,can not only speed up the breeding process of high-quality high-oil and high-oleic soybeans,but also have important significance in human health,and provide the possibility for the development of soybean oil as a new energy source.Hence,the aim of this study was to analyze the high oleic acid elated gene GmSAM22 in soybean.In this research the soybean oleic acid-related gene GmSAM22 was screened out by Genome-wide association analysis,a 662 bp fragment was acquired by specific PCR amplification,and the pMD18T cloning vector was linked by the use of a seamless cloning technique.Bioinformatics analysis of the signal peptide prediction,subcellular localization,protein hydrophobicity,transmembrane region analysis,a phosphorylation site,protein secondary and tertiary structure and protein interaction analysis of the protein encoded by the SAM22 gene was carried out.The plasmid of the gene editing vector is pBK041.The overexpression vector was transformed from pCAMBIA3301 as the base vector,and overexpression vector were designed.Positive plants were obtained by genetic transformation by the pollen tube channel method.Fluorescence quantitative PCR was performed on the T2 generation plants to detect the relative expression levels in different tissues.Southern Blot was used to detect the presence of hybridization signal.Screening genes BAR,35S,and NOS in plants were identified by conventional PCR.10 seeds with high and low oleic acid content were chosen for quantitative PCR identification,and finally,the concentration and morphology of soybean fatty acids were identified by nearfar infrared spectroscopy.On 10 seeds with an upper and lower oleic acid content,a quantitative fluorescence analysis was done.In Southern blot hybridization,the SAM22 gene was integrated into the recipient soybean plant in hands of a sole copy.Fluorescence quantitative PCR appeared that the average relative expression of the SAM22 gene in roots,stems,leaves,and seeds was 1.70,1.67,3.83,and 4.41,respectively.Positive expression seeds had a 4.77%increase in oleic acid content.The level of oleic acid in the altered seeds was reduced by 4.13%when compared to CK,and it was discovered that the GmSAM22 gene could be a regulatory and secondary gene that promotes the conversion of stearic acid to oleic acid in soybean.There has not been a discussion of gene cloning or functional verification.The cloning and genetic transformation of the soybean SAM22 gene can effectively increase the content of oleic acid,which lays a foundation for the study of soybean with high oleic acid.

SAMS系统与E+H温变TMT82不兼容问题的研究

本文主要针对塔石化乙烯装置运行过程中SAMS系统与TMT82型温变不兼容导致温度不定期跳零问题进行分析研究,得出这种现象由SAMS系统与TMT82温变的HART协议版本存在差异使温变重启而造成,可通过更换HART协议版本低的TMT182型温变解决此问题。

附加距离约束的导航相机快速标定方法

针对在轨条件下因观测条件匮乏导致巡视器导航相机标定精度受限的问题,提出了一种基于直线特征的导航相机快速在轨自标定方法。首先,利用SAM(segment anything model)对导航影像太阳能板区域进行图像分割,并对太阳能板OCR(optical control room)直线特征进行提取;然后,构建附加距离约束的导航相机自检校模型;最后,利用Levenberg-Marquardt方法对标定模型进行求解。开展了模拟实验及在轨实验。分析结果表明,相比光束法自标定、CAHVOR及Vanishing Points等标定方法,所提出方法标定参数重建的坐标精度平均值分别提升了20.60%、30.82%和35.92%,对太阳能板OCR距离恢复距离偏差范围在-1.4~1.5 mm之间。该方法可为巡视器导航相机在轨标定技术提供一定的价值参考。