产教融合背景下基于MTS理论的金融知识学习及教学模式研究

在产教融合背景下,金融类课程的教学模式正向问题导向型转变。金融知识学习及教学通过产学协同,并匹配不同学生的学习特征和所要传授的知识特征,实现人才培养质量的提升。产教融合的模式中,混合型师资队伍建设是核心环节,通过案例研究,基于多团队系统理论,探讨产教融合背景下如何构建由校内教师、行业专家和学生组成的多元化教学团队,并分析其运行机制和效果;同时,基于学习模型的教学支持与模式创新,结合学生学习特征,对主要教学方法进行体系化梳理,并优化教学方法,形成教学方案。

Viscoelastic stress change from the 1931 M_(w)7.8 Fuyun earthquake and its impacts on seismic activity around the Altai mountains

The 1931 M_(w)7.8 Fuyun earthquake occurred around the Altai mountains, an intracontinental deformation belt with limited active strain-rate accumulation. To explore whether seismic activity in this deformation belt was affected by stress interaction among different active faults, we calculate the Coulomb failure stress change(ΔCFS) induced by the Fuyun earthquake due to coseismic deformation of the elastic crust and postseismic viscoelastic relaxation of the lower crust and upper mantle. Numerical results show that the total ΔCFS at a 10-km depth produced by the Fuyun earthquake attains approximately 0.015-0.134 bar near the epicenter, and just before the occurrence of the 2003 M_(w)7.2 Chuya earthquake, which distances about 400 km away from the Fuyun earthquake. Among the increased ΔCFS,viscoelastic relaxation from 1931 to 2003 contributes to approximately 0.014-0.131 bar, accounting for>90% of the total ΔCFS. More importantly, we find that for the recorded seismicity in the region with a radius of about 270 km to the Fuyun earthquake from 1970 to 2018, the percentage of earthquakes that fall in positive lobes of ΔCFS resolved on the NNW-SSE Fuyun strike-slip fault, on the NWW-SEE Irtysh strike-slip fault, and on the NW-SE Kurti reverse fault is up to 67.22%-91.36%. Therefore, the predictedΔCFS suggests that the impact of the 1931 M_(w)7.8 Fuyun earthquake on seismic activity around the Altai mountains is still significant as to hasten occurrence of the 2003 M_(w)7.2 Chuya earthquake at a relatively far distance and to trigger its aftershocks in the near-field even after several decades of the mainshock.

Flooding(or breaching)of inter-connected proglacial lakes by cascading overflow in the arid region of Western Mongolia(Mt.Tsambagarav,Mongolian Altai)

This study investigates the glacial lake outburst flood(GLOF)hazards in the Tsambagarav mountain range in Western Mongolia,focusing on the Khukhnuruu Valley and its interconnected proglacial lakes.Over the last 30 years,significant glacier retreats,driven by rising temperatures and changing precipitation patterns,have led to the formation and expansion of several proglacial lakes.Fieldwork combined with satellite data and meteorological analysis was used to assess the dynamics of glacier and lake area changes,with particular focus on the flood events of July 2021.The research reveals a substantial reduction in glacier area,particularly in the Khukhnuruu E complex,where glacier area decreased by 19.3%.The study highlights the influence of increasing temperatures and summer precipitation,which have accelerated ice melt,contributing to the expansion and eventual breaching of lakes.Additionally,lake area changes were influenced by the steepness of the terrain,with steeper slopes exacerbating peak discharge during floods.Of the studied seven lakes(Lake 1 to Lake 7),Lake 1 experienced the most dramatic reduction,with a decrease in area by 73.51%and volume by 84.84%,followed by Lake 7.This study underscores the region's vulnerability to climate-induced hazards and stresses the need for a comprehensive early warning system and disaster preparedness measures to mitigate future risks.

Assessment of sediment connectivity using modelling and field-based approaches in the Slavíč River catchment(MoravskoslezskéBeskydy Mts,Czech Republic)

Mountain streams act as conveyors of sediments within the river continuum,where the physical transport of sediments between river reaches through the catchment or between individual parts(e.g.,between hillslopes and channels)of the catchment is assumed.This study focused on sediment connectivity analysis in the SlavíčRiver catchment in the MoravskoslezskéBeskydy Mts in the eastern part of the Czech Republic.The connectivity index and connectivity index target modelling were combined with an analysis of anthropogenic interventions.Additionally,field mapping,grain size of bed sediments and stream power analysis were used to obtain information about connectivity in the catchment.Based on the analysis and obtained results,terrain topography is the current main driving factor affecting the connectivity of sediment movement in the SlavíčRiver catchment.However,the modelling provided valuable information about high sediment connectivity despite different recent land use conditions(highly forested area of the catchment)than those in historical times from the 16th to 19th centuries when the SlavíčRiver catchment was highly deforested and sediment connectivity was probably higher.The analysis of anthropogenic interventions,field mapping,grain size of bed sediments and stream power analysis revealed more deceleration of sediment movement through the catchment,decreased sediment connectivity with bed erosion,and gradual river channel process transformation in some reaches.Field mapping has identified various natural formations and human-induced changes impacting the longitudinal and lateral connectivity in the SlavíčRiver.For instance,embankments along 48%of the river's length,both on the right and left banks,significantly hinder lateral sediment supply to the channel.Stream power index analysis indicates increased energy levels in the flowing water in the river's upper reaches(up to 404.8 W m^(-2)).This high energy is also observed in certain downstream sections(up to 337.6 W m^(-2)),where it is influenced by human activities.These conditions lead to intensified erosion processes,playing a crucial role in sediment connectivity.Similar observations were described in recent studies that pointed out the long-term human interventions on many streams draining European mountains,where a decrease in sediment connectivity in these streams is linked with sediment deficits and the transformation of processes forming channels.

基于MTS-BiGRU-DMHSA的工业负荷预测方法

工业用电占我国全社会用电量比重大,通过工业负荷预测了解负荷趋势和用电量信息,有助于电网安全稳定运行,为电力部门发电规划提供依据,且有助于工业用户优化生产工艺和降低成本。为了兼顾工业负荷波动的不确定性以及工业用户用电行为的规律性特征,提出一种基于多时间尺度(MTS)特征的工业负荷预测方法MTS-BiGRU-DMHSA,利用MTS特征融合挖掘工业负荷的周期趋势特征和局部波动特征,提升工业负荷表征的可解释性。此外,双层多头自注意力(DMHSA)机制利用注意力权重聚焦重要特征,在挖掘输入特征关联性的同时捕捉时序关联性,强化重要特征变量与关键时间步的信息表达。在中国某工业企业五面受总柜实采数据上完成实验验证,采用2种评价指标对所提方法及5种基于神经网络的预测方法进行对比分析。实验结果表明,所提方法相较于对比方法平均误差降低逾20%,其中4.67%得益于对MTS特征的运用。通过对比各方法计算效率证实了所提方法的综合性能优势,可视化实验结果与对比分析也验证了其在工业负荷预测任务上的可行性。

MTS及MTO混合生产模式下的宠物用品库存研究

本文探讨了宠物行业供应链管理的挑战和机遇,强调了采用创新生产战略应对动态市场环境的重要性。本研究首先探讨了传统供应链面临的挑战,包括信息滞后和系统不完整,强调了这些缺陷对决策过程的影响。然后,文章提出采用 MTS/MTO 混合生产模式作为战略解决方案,并阐明了每种方法的特点和优势。此外,文章还讨论了 MTS 和 MTO 对不同产品类别和细分市场的适用性,强调了差异化运营战略的必要性。最后,文章的结论强调了持续投资于技术、协作和供应链优化对于宠物行业保持竞争力和满足不断变化的消费者需求的重要意义。

MTS-05 PDM多频代播机核心技术及应用

深入探讨MTS-05 PDM 5 kW多频代播机的研发背景、核心技术、应用价值及其对广播技术领域的影响。在中波广播技术面临频率固定性和调频机制局限的挑战背景下,MTS-05 PDM 5 kW多频代播机作为技术创新的产物,通过集成复杂可编程逻辑器件(Complex Programmable Logic Device,CPLD)逻辑频率选通技术、直接数字合成(Direct Digital Synthesizer,DDS)高频激励机制和智能多频网络切换技术,实现了多频次高效、安全播出。设备不仅克服了传统发射机的调频烦琐和空间限制问题,还提升了播出质量和安全播出效率,展示了智能化运维与资源优化的典范。

应用于MTS的多点测温系统设计

针对调制转移光谱稳频(MTS)系统中,温度波动会影响激光频率稳定性的问题,设计出多点测温系统。该系统以FPGA为核心,通过基准电压源激励电桥电路,将三线制PT1000温度变化转换为电压变化,利用同步采样ADC对转换电压进行采集,最后在LabVIEW中将采集电压转换为温度实时显示和存储。信号调理电路中的抗射频干扰滤波和FPGA中的均值滤波,可降低噪声干扰,提高测温精度。实验结果表明:该系统具备线性度好、精度高、重复性好的优点,可对10~80℃的温度进行监测和存储,采用分段线性拟合后,其测温误差不超过0.02℃,可以满足实验需求。

Epalrestat Enhances MTS Reduction Activity Independent of Cell Numbers in Bovine Aortic Endothelial Cells

The 3-(4,5-dimethylthiazol-2-yl)-5-(3-carboxymethoxyphenyl)-2-(4-sulfophenyl)-2H-tetrazolium (MTS) assay is used as a major method to evaluate cell viability. However, in some cases, the results may reflect mitochondrial status regardless of viability. Epalrestat (EPS) is currently available for the treatment of diabetic neuropathy. In this study, we report that EPS at near-plasma concentrations increases MTS reduction activity independent of cell number in bovine aortic endothelial cells. Nuclear factor erythroid 2-related factor 2 (Nrf2) is a key transcription factor that plays a pivotal role in inducing the expression of genes encoding detoxifying and defensive proteins. Sulforaphane (an Nrf2 activator) also increased MTS-reducing activity, similar to EPS. Knockdown of Nrf2 by short interfering RNA suppressed EPS-induced MTS reduction. These results suggest that EPS increases MTS reduction activity via the Nrf2 pathway. Furthermore, the results that EPS increases ATP production and that electron transfer chain inhibitors suppress EPS-induced MTS reduction activity suggest that EPS may activate mitochondrial status. Because mitochondrial disorders cause numerous diseases, we suggest that EPS has new beneficial properties that may prevent the development and progression of disorders caused by mitochondrial dysfunction.

新疆大红柳滩伟晶岩型锂矿深部结构与区域成矿模型解释

为揭示花岗岩-伟晶岩型锂等稀有金属矿成矿系统的深部结构,对西昆仑造山带大红柳滩伟晶岩型锂矿集区开展了大地电磁测深法(MT)探测。通过MT三维反演电阻率模型,探测到两个0~20 km深度范围的高阻体,反映了出露于地表的大红柳滩复式花岗岩基和半隐伏的大红柳滩东花岗岩基;20~80 km深度范围内发现的大范围高导异常,则反映了深达上地幔的地壳重熔形成的大规模长英质岩浆储库。可见,成矿母岩大红柳滩花岗岩基是有根的,而且是规模巨大深达上地幔的岩浆储库,它们为超大型大红柳滩伟晶岩型锂矿的形成提供了物源和热源。与松潘-甘孜甲基卡超大型伟晶岩型锂矿集区对比,尽管川西甲基卡地区地表出露的花岗岩有限,但MT三维反演电阻率模型显示,其也存在深达上地幔的大范围高导异常,同样反映了大规模长英质岩浆储库的存在,只是剥蚀深度浅,上侵的花岗岩未被剥蚀出来而已。从而,深剥蚀的大红柳滩地区表现为大面积花岗岩出露的“热隆”特征,而浅剥蚀的甲基卡地区则表现为花岗岩围岩“片麻岩穹隆”热变质构造特征。西昆仑-松潘-甘孜伟晶岩型锂等稀有金属巨型成矿带两端的晚三叠世超大型矿床是大规模地壳重熔长英质岩浆作用中心的产物,由于锂等稀有金属的喜水性,H2O的饱和度是造就伟晶岩型锂超常富集的关键,并在长英质岩浆储库、上侵花岗岩和伟晶岩不同分异演化阶段,锂的“预富集”为大规模伟晶岩型锂矿成矿奠定了重要基础。

基于Unity3D的水电站设备虚拟MTS研究

在工业中,交互式虚拟检修培训系统能够帮助检修人员快速地获取检修知识以达到高效培训的目的。为降低检修培训系统的编码难度,提出了一种编码优化方法以提升水电站设备交互式虚拟检修培训系统的开发效率。该方法基于虚拟现实技术并以零件、工具为基本交互单元。首先对基本交互单元建立了三维模型并赋予基本属性,随后对基本交互单元的运动仿真、交互操作进行编码。并且加入了新的零件组合体、背包机制以及约束机制,实现了交互式虚拟检修中对水电站设备拆解与安装的培训。最后借助Unity3D将该方法应用于水电站主进水系统进水球阀检修培训系统设计中,增强了检修培训的效果。

一种MTO-MTS混合生产模式下的印刷企业APS系统

随着信息技术的发展,国内大部分企业的生产管理水平都有了大幅提高,但是针对具有MTO-MTS混合生产模式的企业来说,其生产计划排产调度目前仍停留在比较落后的水平上。企业面对MTS(Make-to-Stock)类型订单,如何保持高效且连续生产,是亟待解决的问题。同时对于MTO(Make-to-Order)类型订单,企业无法快速响应订单需求,针对库存物料堆积问题无法进行有效解决,生产计划排产调度不尽合理,无法协调用户个性化需求与快速响应之间的矛盾,极大制约了企业生产管理水平和经济效益。

基于特斯拉阀的黏滞阻尼器减震性能研究

针对一种基于特斯拉阀单向流通性的新型黏滞阻尼器,利用MTS landmark电液伺服试验系统对单双阀两种工况的阻尼器进行多振幅多频率循环加载;基于流体在特斯拉阀内的沿程损失建立理论模型,用MATLAB软件对新型阻尼器及传统孔隙式黏滞阻尼器进行仿真分析,分组讨论新型阻尼器的耗能减震性能。试验及仿真结果表明:新型阻尼器是一种无刚度的速度相关型阻尼器,试验值与仿真值基本吻合,较传统阻尼器减震性能突出;单阀阻尼器其性能受流体速度影响存在适用局限性,可通过调整阀门组数以调节阻尼器耗能性能。

1-MCP与MT联合处理对芒果保鲜效果的影响

为探究1-甲基环丙烯(1-MCP)与褪黑素(MT)联合处理对芒果保鲜效果的影响,该研究用0.1 mg/L 1-MCP和0.2 mmol/L MT联合处理芒果后,于25℃贮藏10 d,每2 d取样测定相关指标。结果显示:1-MCP和MT联合处理可以延缓芒果果皮叶绿素降解和类胡萝卜素含量升高,在贮藏第10天,处理组的果皮叶绿素为0.078 mg/g,是对照组的5.27倍;延缓了果肉L*值的下降和a*、b*值的升高,抑制原果胶降解和可溶性果胶含量的升高,贮藏第6天处理组的原果胶含量比对照高2.53倍,而可溶性果胶含量比对照低44.04%,同时在贮藏前期显著抑制了多聚半乳糖醛酸酶(PG)和纤维素酶(Cx)活性,降低了β-半乳糖苷酶(β-Gal)活性,并且维持了果肉更完整的细胞结构,但果肉类黄酮含量在贮藏中期显著低于对照。综上,1-MCP和MT联合处理保持了芒果良好的外观品质,延缓了细胞壁物质的降解,提高了货架期品质。

形式背景上近似推理生成决策蕴涵研究

基于形式背景获取决策蕴涵、概念规则等知识是数据分析、机器学习的重要研究内容之一.首先,利用属性逻辑语义对决策蕴涵的特性进行刻画.其次,在经典二值逻辑框架下分析决策蕴涵、概念规则的基于全蕴涵三I推理思想及分离规则(Modus ponens,MP)和逆分离规则(Modus tonens,MT)的近似推理模式的特征,证明决策蕴涵的MP、MT近似推理结论是决策蕴涵,概念规则的MP、MT近似推理结论是概念规则等结论.引进属性逻辑公式的伪距离,在属性逻辑伪距离空间中分析推理对象范围参数变化对决策蕴涵MP、MT近似推理结论的影响.最后,提出若干通过MP、MT近似推理生成决策蕴涵、概念规则及拟决策蕴涵的模式和方法,数值实验验证了所提方法的有效性.

科技的力量 杜卡迪MTS V4S

强劲动力、丰富配置、犀利外观、舒适享受、意大利美学和机械的完美融合……这些都是我们想到杜卡迪Multistrada(MTS)系列时脑海中呈现的词汇。如今,最新的MTS V4系列已正式引入到国内市场,配置和动力的升级让这款车更加强大,而且它的驾驶感受也“第一次”与轻巧、好骑挂钩,让人们对于杜卡迪这个品牌有了全新认识。

基于MTS的NASPIC平台输出至外部系统试验可行性研究

为确保安全级DCS系统的可靠性,需在固定周期对安全级DCS设备进行定期试验,降低因任何原因导致的系统误动、拒动的可能性。本文针对核安全级DCS平台“龙鳞平台(NASPIC)”的输出至外部系统试验的逻辑关系冗杂、时序关系复杂,以及占用大量CPU、SVDU资源的问题,提出了一种新的输出至外部系统试验解决方案,可使CPU中逻辑复杂度大大减少。此方案在对安全级设备性能不降低的情况下大量精简CPU逻辑,且不降低定期试验功能的可靠性,可在多个核电仪控产品领域推广。

中国雪都阿尔泰山暖区暴雪水汽特征分析

为进一步做好中国雪都阿勒泰山冬季冰雪旅游暴雪预报预警服务,利用阿尔泰山固态降水数据、NCEP/NCAR再分析和GDAS数据,应用天气学诊断和不同水汽分析方法对2021年阿尔泰山区3次暴雪过程环流背景和水汽特征进行分析。结果表明:①3次暴雪过程均为新疆北部典型的暖区暴雪过程。②欧拉方法分析表明,该区水汽主要源于大西洋及其沿岸,阿尔泰山西边界为水汽输入,东边界和南边界为水汽输出,中、低层的水汽输入量与暴雪量关系密切,水汽通量散度辐合区位于对流层低层。③HYSPLIT(拉格朗日)方法分析表明,水汽源地主要来自北冰洋、欧洲,其次是中亚和加拿大,与上述结论明显不同;对暴雪区综合贡献较大的是对流层低层的水汽。④构建了阿尔泰山区暴雪过程水汽贡献模型,700 hPa及以上水汽自源地到达关键区后主要从偏西(西南)路径输入暴雪区,700 hPa以下水汽到达关键区后,在环流合适时主要从东南路径输入暴雪区,但从偏西(西南)和西北路径输入暴雪区的水汽也不容忽视;水汽主要在对流层低层聚集,并辐合抬升。

阿勒泰市移动源排放清单及时空分布特征

通过“自上而下”调查方式获取移动源活动水平,采用排放因子法建立了阿勒泰市移动源排放清单,并进行移动源排放的时空特征分析和清单不确定性分析。结果表明,2021年阿勒泰市移动源9种大气污染物排放总量,CO为669.12 t,NO_(x)为617.92 t,SO_(2)为29.85 t,NH_(3)为32.61 t,VOCs为136.35 t,PM_(2.5)为35.74 t,PM_(10)为38.06 t,BC为20.33 t,OC为6.41 t。其中,CO、SO_(2)、NH_(3)、VOCs主要来源于载客汽车,贡献率均超过40%;NO_(x)主要来源于农业机械和载货汽车,贡献率均超过30%;PM_(2.5)、PM_(10)、BC、OC主要来源于农业机械,贡献率均超过75%。时空分布特征表现为6—8月排放量最高,人口密集的市区排放量高于其他区域。移动源9种污染物排放清单不确定性均在−39.23%~56.27%以内,本清单计算结果相对可靠。

一株产凝乳酶变色栓菌鉴定及其凝乳酶的分离纯化与酶学性质研究

微生物凝乳酶具有生产周期短和易于发酵生产的优点,是传统小牛皱胃酶的经济高效替代选择之一。为了筛选新的凝乳酶产生菌,该研究以从传统发酵腐乳分离的霉菌为出发菌株,筛选具有高凝乳活性和低蛋白水解活性的霉菌菌株。采用内源转录区间隔区结合线粒体小亚基核糖体DNA扩增测序的方法对菌株进行了分子鉴定。通过硫酸铵分级盐析沉淀、DEAE-Sepharose Fast Flow阴离子交换柱、Sephadex G100凝胶过滤层析法对酶进行了纯化,并研究了凝乳酶酶学特性。筛选出菌株CQ3具有良好的凝乳活性和低蛋白水解活性,该菌株鉴定为变色栓菌(Trametes versicolor)。CQ3凝乳酶纯化后经SDS-PAGE分析呈现出分子质量为61 kDa的唯一条带。该酶作用的最适温度为45℃,最适pH值为6.5,Ca^(2+)对酶活力有显著的促进作用。该酶在pH值为4.5~7.0和温度低于50℃条件下有良好的稳定性。蛋白酶抑制剂试验表明,该酶为一种天冬氨酸蛋白酶。该研究结果报道了一种新的产凝乳酶菌种资源,为丰富凝乳酶产生菌株资源,进一步评价栓菌凝乳酶在干酪加工适用性的研究提供了理论基础。