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![b'porous [13]或树突[14]生长形态。 [9]在基于TFSI的电解质中检测到具有不同形状的半球3D颗粒,这是施加电流密度的函数。 [12]在Mg(TFSI)2盐中,具有MGCL 2的盐电解质,作为添加剂,连续的剥离和镀金导致SEI层的破裂和改革,从而在相应的断裂部位和不均匀的MG沉积中产生较大的有效电流密度。 [13]通过这种机制,半球形沉积物进一步降解为多孔形态和被困的沉积物,这些沉积物是不可逆转地损失的。非均匀Mg生长的最极端形式是树突的形成,在Mg阳极下,其发生的频率要小得多。到目前为止,仅在0.921 MACM 2的电流密度下仅针对MEMGCL的0.5 MOLDM 3溶液检测到树突。 [14]'](/simg/c\c3a21c42650d3ccade33d4bd198406da2b5388b9.webp)
b'porous [13]或树突[14]生长形态。 [9]在基于TFSI的电解质中检测到具有不同形状的半球3D颗粒,这是施加电流密度的函数。 [12]在Mg(TFSI)2盐中,具有MGCL 2的盐电解质,作为添加剂,连续的剥离和镀金导致SEI层的破裂和改革,从而在相应的断裂部位和不均匀的MG沉积中产生较大的有效电流密度。 [13]通过这种机制,半球形沉积物进一步降解为多孔形态和被困的沉积物,这些沉积物是不可逆转地损失的。非均匀Mg生长的最极端形式是树突的形成,在Mg阳极下,其发生的频率要小得多。到目前为止,仅在0.921 MACM 2的电流密度下仅针对MEMGCL的0.5 MOLDM 3溶液检测到树突。 [14]'
b'porous [13]或树突[14]生长形态。[9]在基于TFSI的电解质中检测到具有不同形状的半球3D颗粒,这是施加电流密度的函数。[12]在Mg(TFSI)2盐电解质中,MGCL 2作为添加剂,连续的剥离和镀金导致SEI层的破裂和改革,从而在相应的断裂部位和不均匀的MG沉积中产生大量有效的电流密度。[13]通过这种机制,半球形沉积物进一步降解为多孔形态和被困的沉积物,这些沉积物是不可逆转地损失的。最极端的非均匀Mg生长形式是树突的形成,在mg阳极下发生的频率要小得多。到目前为止,仅在0.921 MACM 2的电流密度下仅针对MEMGCL的0.5 MOLDM 3溶液检测到树突。[14]'
(b):Osama Ragab Ibrahim,Yara Gamil,Salma Al Maghawry(2024)。比较检测到的全球气候降雨量降水的趋势和预测
摘要由于气候变化的效果不断升级,可用的水资源处于风险状态。气候变化估计和预测。降水量和强度的变化对环境体系如何应对人类受影响的气候变化有重大影响,尤其是在阿曼的苏丹国中,这有很长的历史。为了预见2022 - 2050年的降水量,本研究使用社区气候系统模型版本4(CCSM4)与2006 - 2022年阿曼的历史记录记录的降水模式相比,预测未来的气候变化。本研究的目的是确定是否可以使用气候变化情景来预测降水量。这项研究阐明了未来的降水模式,就气候变化对局部降水量的影响而言。此外,这些发现将支持该国的决策者在管理和减轻该国当前的水资源以减少气候变化的影响方面的决策。
项目129:由岸上启动的AUV
图1。DIVE-LD Geophysical Survey Build................................................................................. 2 Figure 2.DIVE-LD Geophysical Survey Sensors ............................................................................. 2 Figure 3.Side Scan Sonar, Magnetometer, and Combined Image of Overlapping Cable ................ 3 Figure 4.Mission Control View of Test Area ................................................................................... 4 Figure 5.Dive Spotter Anomalies Detected ...................................................................................... 5 Figure 6.潜水重新启动路径...................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................SBP Anomalies Detected ................................................................................................... 7 Figure 8.Manual Control of DIVE-LD from Support Vessel ........................................................... 10
o r i g i n a l r e s a r c h被M-PCR检测到的不同尿道病的患病率和关联与感染相关的尿液生物标志物
背景:当前通过多重聚合酶链反应(M-PCR)在怀疑的UTI病例中鉴定出许多新兴的尿道病。标准尿培养(SUC)的检测率明显较低,引发了有关这些生物是否与尿路感染并真正引起炎症的问题。目的:确定通过M-PCR检测到的微生物是否可能通过测量有症状患者尿液中的炎症生物标志物来引起UTI。设计,设置和参与者:中游无效的尿液是从≥60岁的受试者收集到泌尿科诊所的,在01/2023至05/2023之间,泌尿科症状(n = 1132)(n = 1132)。微生物检测是通过炎症相关的生物标志物(中性粒细胞明胶相关的脂肪蛋白,白介素8和白介素1β)是通过酶联免疫吸收测定的。生物标志物阳性是针对个体和生物体,大肠杆菌和非大肠杆菌病例,新出现的尿道病,单粒细胞和多菌病例测量的。结果测量和统计分析:使用2个样本Wilcoxon等级总测试比较分布,而2尾p值<0.05被认为具有统计学意义。结果和局限性:在823(72.7%)样品中,M-PCR为阳性,其中28个(93%)的微生物/组被检测到。28个检测到的微生物/组的26个(93%)在> 66%的病例中≥2个生物标志物阳性。非大肠杆菌病例和大肠杆菌病例均具有显着的生物标志物阳性(p <0.05)。的局限性是,一些生物的患病率较低,从而推断出他们的个人意义很困难。结论:M-PCR鉴定出的大多数微生物与通过生物标志物阳性测量的主动炎症有关,表明它们在有症状的患者中可能是UTI的原因。这包括经常未被标准尿培养物检测到的新兴尿道病。
融合22
Detected Defects Shorts, opens, minimum line/space violations, nicks, protrusions, dishdowns, copper splashes, pinholes, missing or excess features, wrong size and position of features, clearance and split plane violations, blocked holes, annular ring violations, SMT violations, black spots, wire bonding pad defects, flip chip pad defects, defects in through blind vias
超大300
Detected Defects Shorts, opens, minimum line/space violations, nicks, protrusions, dishdowns, copper splashes, pinholes, missing or excess features, wrong size and position of features, clearance and split plane violations, blocked holes, annular ring violations, SMT violations, black spots, wire bonding pad defects, flip chip pad defects, defects in through blind vias
遗传癌的基因检测
Individual has a personal history of a Primary Solid Tumor (excluding basal or squamous cell skin cancer) and at least one of the following: o A pathogenic variant was detected in tumor tissue that has clinical implications if detected in the germline (e.g., BRCA1, BRCA2, BRIP1, MLH1, MSH2, MSH6, MUTYH, PALB2, PMS2, RAD51C, RAD51D, RET, SDHAF2, SDHB, SDHC, SDHD, TMEM127, TSC2, VHL APC, PTEN, RB1, and TP53 ) o Tumor tissue testing demonstrated that the cancer was MSI-high or had immunohistochemical staining showing the absence of one or more mismatch repair (MMR) proteins ( MLH1, MSH2, MSH6, or PMS2 ) o Individual has a Tyrer-Cuzick, BRCAPro, or Penn11 Score of 2.5% or greater for a BRCA1/2 pathogenic variant o Individual has a PREMM 5 , MMRpro, or MMRpredict Score of 2.5% or greater for having a Lynch syndrome gene mutation Individuals With No Personal History of a Primary Solid Tumor Genetic testing with a Multi-Gene hereditary cancer Panel or testing of BRCA1/2 for individuals如果符合以下至少一个标准之一,则没有原发性实体瘤的个人病史(不包括基底或鳞状细胞皮肤癌),并且在医学上是必不可少的:
Orbotech Ultra Fusion™200
Detected Defects Shorts, opens, minimum line/space violations, nicks, protrusions, dishdowns, copper splashes, pinholes, missing or excess features, wrong size and position of features, clearance and split plane violations, blocked holes, annular ring violations, SMT violations, black spots, wire bonding pad defects, flip chip pad defects, defects in through blind vias
定量可靠性和弹性...
•证明了配备有国防措施并受到对抗性攻击的ML模型的定量可靠性和弹性评估方法的适用性。Results • Software reliability growth models incorporating covariates more accurately track and predict the number of defects detected than models without covariates • Resilience models considering negative and positive factors characterizing the deterioration and recovery of a system are also able to precisely track and predict the resilience of defensive measures for ML subject to specific attacks Future research • Explore the application of these models to cyber-physical systems • Incorporate these reliability and resilience models进入维护模型
MERSCOPE®用户指南
数据处理和可视化。MERSCOPE仪器软件(与Merscope Analysis Computer结合使用)会自动处理原始图像以输出空间基因组学测量,以准备立即进行下游分析。The output includes the list of all detected transcripts and their spatial locations in three dimensions (CSV files), mosaic images (TIFF), experiment metadata (JSON), output from the cell segmentation analysis: transcripts per cell matrix (CSV), cell metadata (CSV), cell boundaries (HDF5 [MERSCOPE Instrument Software v231 or earlier] or PARQUET [V232或更高版本]),以及用于Merscope Vizualizer软件的二进制文件。MERSCOPE平台解决方案包括用于可视化和分析数据的Merscope Vizualizer软件。输出文件也与用于单细胞和空间分析的开源工具兼容。