分级诊疗体系医生协作共生效应测评问卷研制及维度内在关系研究

目的研制分级诊疗体系医生协作共生效应测评问卷,剖析并验证医生协作共生效应的结构维度及其内在逻辑关系。方法采用文献资料及专题小组讨论法阐释分级诊疗体系医生协作共生效应的概念内涵及构成要素,研制其测评问卷。采用多阶段抽样对1959名医生进行现场问卷调查。结果医生协作共生效应测评问卷包括协作认知、协作信任、协作意愿、协作行为4个维度,共10个条目。问卷总体及4个维度的Cronbach’sα系数均大于0.7。探索性因子分析提取4个公因子,方差累计贡献率为86.7%;验证性因子分析结果显示,医生协作共生效应测评问卷4个维度的组成信度均大于0.7,平均方差萃取量均大于0.5。协作认知通过协作信任与协作意愿的链式中介作用影响协作行为。结论研制的医生协作共生效应测评问卷信效度较好,其各维度契合了“知”“情”“意”“行”相互影响的结构关系,可作为分级诊疗体系不同医疗机构间医生协作共生效应及程度评价的参考工具。

烤烟新品种川烟101的选育及特征特性

烤烟新品种川烟101(原编号A601)是以(红花大金元×RG11)F_(1)为母本、(云烟85×K346)F_(1)为父本杂交,以提高品种黑胫病抗性、烟叶易烤性为主要目标,经系谱法选育而成的烤烟纯系新品种。该品种田间长势强,植株塔形,叶片开片较好,适应性广,成熟特性好,易烘烤,中抗黑胫病和赤星病。综合经济性状显著优于主对照品种K326和副对照品种云烟87;综合感官质量、物理特性优于主对照品种K326和副对照品种云烟87,香型风格凸显程度较强;综合质量与主对照K326相当,优于副对照云烟87。川烟101是一个抗性、产量和品质都较好的优良烤烟纯系新品种,适合在西南烟区、东南烟区推广种植。

烤烟新品种川烟102的选育及特征特性

烤烟新品种川烟102是以(K326×云烟85)F_(1)为母本、(NC86×Coker176)F_(1)为父本杂交,以抗TMV和黑胫病为育种目标,经系谱法选育而成的烤烟纯系。该品种田间生长整齐,长势较强,植株为筒形,叶色绿,叶形长椭圆,农艺性状较好;该品种对TMV免疫,中抗黑胫病和赤星病,田间落黄好,较易烘烤,综合经济性状显著优于主对照品种K326,优于副对照品种云烟87;烤后原烟外观质量优于主对照品种K326,与副对照品种云烟87相当;感官质量优于主对照K326和副对照云烟87,综合质量与主对照K326、副对照云烟87相当。川烟102是一个经济性状优、品质好、适应广的烤烟纯系新品种,适宜在安徽等东南烟区、四川等西南烟区种植。

正构烷烃单体碳同位素组成差异分析——以塔河油田奥陶系原油为例

【目的】为明确原油正构烷烃单体碳同位素(δ^(13)C_(alkane))组成差异的成因。【方法】研究分析了塔北地区奥陶系共计17个原油样品δ^(13)C_(alkane)组成特征,结合相关有机地球化学参数,从沉积环境、成熟度和生物降解作用三个方面解释了三类原油δ^(13)C_(alkane)值的变化趋势。【结果与结论】根据物性的差异,可将塔北地区原油分为重质、中质和轻质三类。塔北地区奥陶系原油δ^(13)C_(alkane)值介于-37‰~-31‰,呈现出海相原油的特征,表明原油δ^(13)C_(alkane)组成及分布范围受其形成的沉积环境和母质类型控制;从重质原油到中质原油再到轻质原油,成熟度逐渐增大,导致原油δ^(13)C_(alkane)值正偏;相较于中质原油和轻质原油,重质原油低碳数部分δ^(13)C_(alkane)明显变大,表明生物降解程度是重质原油中、低分子量正构烷烃δ^(13)C14~δ^(13)C19值正偏的主要影响因素。

加速康复外科模式下的加速康复护理干预在前路颈椎间盘切除融合术患者中的应用效果分析

目的探讨加速康复外科(ERAS)模式下的加速康复护理干预在前路颈椎间盘切除融合术(ACDF)患者中的应用效果。方法选取2020年5月至2021年5月首都医科大学宣武医院收治的162例接受ACDF治疗的颈椎病患者为研究对象,在组间基线特征可比的原则上,采用随机数字表法分为对照组和观察组,每组81例。对照组患者给予常规护理干预,观察组患者给予ERAS模式下的加速康复护理干预。比较分析两组患者的术后胃肠功能、术后疼痛程度、导尿管拔除时间、首次下床时间及住院时间。结果两组患者的术后恶心、呕吐发生率比较差异无统计学意义(P>0.05);观察组患者的首次排气时间、首次排便时间、首次进食固体食物时间、导尿管拔除时间、首次下床时间、住院时间、静息时的视觉模拟评分法评分、运动时的视觉模拟评分法评分均短于或低于对照组,差异均有统计学意义(P<0.05)。结论实施ERAS模式下的加速康复护理干预可显著改善接受ACDF治疗的颈椎病患者的术后胃肠功能,促进患者的术后恢复进程,值得临床应用。

一种改进聚类算法的时间序列异常检测方法

时间序列异常检测被广泛应用于民航领域,对飞机快速存取记录器收集的时间序列数据进行异常检测为识别降低安全裕度的事件提供了有力手段。为了提高时间序列异常检测的准确率,提出一种基于改进聚类算法的时间序列异常检测方法。将K-Medoids聚类算法的欧氏距离度量方法替换为动态时间规整距离度量方法,根据样本点与中心点之间的距离判定异常,研究通过飞机飞行参数超限检测测试时间序列异常检测方法的有效性。实验结果表明,与传统聚类算法相比该方法的异常检测准确率和F1分数更高。聚类算法使用动态时间规整度量距离优化了时间序列相似性度量的精度,可以对形态特点相似的时间序列数据更好地聚类,提高了聚类算法的准确性。

异质无蜂窝MIMO绿色通信网络

异质无蜂窝多天线(Multiple-Input Multiple-Output,MIMO)系统是未来移动网络发展的方向之一,也是极具节能潜力的高效通信系统。本文首先对异质无蜂窝MIMO系统的整体构架进行了介绍,从整体的角度分析该网络的具体构架和节能潜力,随后从绿色网络部署与协作、网络运行与调度以及用户接入、高能效MIMO收发机技术和传输与多址等方面介绍了基本原理和潜在节能增益。随着信息超材料的发展,一些全新的异质MIMO收发机逐渐展现了其在能效方面的优势,合理利用这些新型的收发机技术将有效提高系统能效。除了硬件带来的增益之外,异质无蜂窝组网的增益主要来源于各个接入点的协作传输所形成的超大规模MIMO,而这也带来了更加复杂的信号传输模式,同时受限于有限的算力资源,系统不可能无限协作,因此需要对该系统的接入点部署策略和协作方式进行全新的研究。在完成部署之后,由于用户在空间和时间上的通信需求变化较大,还可以利用深度学习等技术对用户的行为进行一定程度的预测,并在空间和时间上对通信设备的运行状态进行调整,在满足通信指标的同时提高系统的能效。最后,用户的多址接入与传输方式则是整个异质无蜂窝MIMO系统的基础,新型的速率分割多址接入(Rate-Splitting Multiple Access,RSMA)技术可以有效对抗干扰,而针对异质无蜂窝MIMO系统的传输波束赋形也需要进行全新的设计以适应RSMA技术和异质的MIMO设备。本文还同时讨论了以上各个方面的可能设计以及未来研究方向。

基于地震动反应谱与傅里叶谱确定场地卓越频率的差异性

强震动记录的HVSR法常用于评估场地卓越频率,计算强震动记录HVSR时常采用加速度反应谱或加速度傅里叶谱,但两者会给出不同的评估值。为揭示反应谱比和傅里叶谱比评估场地卓越频率的差异,本文选取日本KiK-net台网中场地条件可近似为一维场地模型的16个台站,以其获取的强震动记录开展场地卓越频率研究。首先提出了评估场地卓越频率的数据处理方法,主要包括S波截取、Taper预处理、基于高斯拟合的自动寻峰。探讨并给出了阻尼比、平滑的带宽系数取值对场地卓越频率评估的影响规律;对反应谱阻尼比取10%,对傅里叶谱平滑的带宽系数取20~40之间获取的场地卓越频率较为准确。然后对比分析了利用地震动加速度反应谱比和傅里叶谱比得到的场地卓越频率与场地土层模型计算得到的基于传递函数的自振频率。研究结果表明,对大多数台站而言,采用傅里叶谱比计算场地卓越频率具有明显的优势,对于Ⅱ、Ⅲ、Ⅳ类场地上的台站均有如此结论,只有对少数特定台站,采用反应谱比方法效果更好。

生态位视角下城市数字化对创新空间演变的影响与异质性分析

数字化是新质生产力的重要支撑,以其生态化属性赋能城市发展,进而塑造城市创新格局。基于宽度、高度和重叠度的三维生态位理论,构建城市数字化影响创新空间演变的分析框架,并使用2011—2021年284个城市面板数据开展实证检验。研究发现:城市数字化激发了城市创新活力,尤其是良好的数字生态提高后发城市的创新吸收能力,从而缩小后发城市与先发城市间的创新差距,使我国创新空间演化呈现条件β收敛特征;数字化对创新空间演变的影响取决于城市所处的数字生态位,其中生态位宽度和高度的提升能够提高后发城市的创新吸收能力;生态位的适度重叠有利于促进城市间科创资源共享和价值共创,且该作用受到城市间认知邻近性的调节;不同城市在数字化赋能过程中分化为领跑型、赶超型、中等型、发展型、落后型5种类型,对不同类型城市存在差异化的数字发展策略。研究发现为激发城市数字化发展新动能、促进城市协同创新提供了新思路。

基于自适应AR模型巡航飞行参数预测研究

为更准确实现飞行参数趋势预测,提出一种基于自适应自回归(AR)模型的稳定巡航飞行参数预测方法。根据稳定巡航参数筛选条件,获取建模所需飞行参数。利用卡尔曼滤波原理估计AR模型参数,并与飞行参数构建系统方程,利用无迹卡尔曼滤波实时更新、修正AR模型参数估计值,将自适应AR模型的预测值与曲线拟合模型和灰色模型的预测值进行对比。以波音B777-300ER飞机的快速存取记录器数据样本进行仿真验证,结果表明:自适应AR模型在数据预测和收敛速率方面均更优,可有效降低预报模型随步数增加导致的精度误差,提高参数预测准确性。研究在飞机维修保障、状态监控与预测等方面具有重要作用。

Geological characterization and exploration potential of shale gas in the Carboniferous Jiusi Formation,northern Guizhou and Yunnan provinces,SW China

Dark mudstones and shales of the Carboniferous Jiusi Formation are widely developed in northern Guizhou and Yunnan provinces, SW China. However, the distribution, reservoir characterization, and exploration potential of organic-rich shales in this area are yet to be quantified, thus limiting the prospect of shale gas in this area. This study investigates the basic geological conditions of Jiusi shale gas, using core data, well-logs, and some other test data, obtaining the following results. The organic-rich shales are mainly composed of deltaic-to-shallow-shelf deposits, with thickness ranging from 0 to 450 m, and above 350 m around the subsidence center. The organic matter is mainly type Ⅱ kerogen with TOC content of mostly 1%–2%, indicating a moderate maturity. The argillaceous shale reservoirs are indicative of strong heterogeneity, high clay minerals content, low porosity, low permeability, high specific surface area, and relatively developed secondary porosity. The gas-log anomaly intervals obtained from the survey wells have a cumulative thickness that is apparently greater than 200 m, and a few shale intervals showing high desorbed and adsorbed gas contents. Due to complex structures in the study area, conditions responsible for shale gas occurrence and trapping are generally moderate. However, areas having wide and gentle folds with moderate depth of burial reveals relatively favorable conditions of hydrocarbon traps. In contrast with typical marine-continental transitional shales, the Jiusi shale have better geological conditions for shale gas preservation. The analysis of the geological framework and hydrocarbon potential of Carboniferous Jiusi Formation provide more insight for the exploration of Carboniferous shale gas in southern China.

Mitochondrial transplantation confers protection against the effects of ischemic stroke by repressing microglial pyroptosis and promoting neurogenesis

Transferring healthy and functional mitochondria to the lateral ventricles confers neuroprotection in a rat model of ischemia-reperfusion injury.Autologous mitochondrial transplantation is also beneficial in pediatric patients with cardiac ischemia-reperfusion injury.Thus,transplantation of functional exogenous mitochondria may be a promising therapeutic approach for ischemic disease.To explore the neuroprotective effect of mitochondria transplantation and determine the underlying mechanism in ischemic stroke,in this study we established a photo-thrombosis-induced mouse model of focal ischemia and administered freshly isolated mitochondria via the tail vein or to the injury site(in situ).Animal behavior tests,immunofluorescence staining,2,3,5-triphenyltetrazolium chloride(TTC)staining,mRNA-seq,and western blotting were used to assess mouse anxiety and memory,cortical infarct area,pyroptosis,and neurogenesis,respectively.Using bioinformatics analysis,western blotting,co-immunoprecipitation,and mass spectroscopy,we identified S100 calcium binding protein A9(S100A9)as a potential regulator of mitochondrial function and determined its possible interacting proteins.Interactions between exogenous and endogenous mitochondria,as well as the effect of exogenous mitochondria on recipient microglia,were assessed in vitro.Our data showed that:(1)mitochondrial transplantation markedly reduced mortality and improved emotional and cognitive function,as well as reducing infarct area,inhibiting pyroptosis,and promoting cortical neurogenesis;(2)microglial expression of S100A9 was markedly increased by ischemic injury and regulated mitochondrial function;(3)in vitro,exogenous mitochondria enhanced mitochondrial function,reduced redox stress,and regulated microglial polarization and pyroptosis by fusing with endogenous mitochondria;and(4)S100A9 promoted internalization of exogenous mitochondria by the microglia,thereby amplifying their pro-proliferation and anti-inflammatory effects.Taken together,our findings show that mitochondrial transplantation protects against the deleterious effects of ischemic stroke by suppressing pyroptosis and promoting neurogenesis,and that S100A9 plays a vital role in promoting internalization of exogenous mitochondria.

离子液体体系纤维素气凝胶的制备和结构调控

以棉纤维素为原料、离子液体为溶解体系,获得纤维素均相溶液制备纤维素气凝胶。以1-烯丙基-3-甲基咪唑氯盐作为溶剂体系、棉纤维素浓度为2%、聚合度为1500时,采用叔丁醇作为置换溶剂,经真空冷冻干燥得到的纤维素气凝胶比表面积可达288.7310 m^(2)/g,孔容、孔径分别为2.2528 cm^(3)/g、30.94 nm,并结合BET、SEM、XRD、FTIR、TG等表征分析研究了离子液体类型、干燥方式、纤维素聚合度、纤维素浓度、溶剂置换类型对纤维素气凝胶微观结构的影响。

会理市培育杈烟补救措施对雹灾后烤烟产质量的影响

冰雹是烟叶生产期间造成很大损失的自然灾害,灾害发生后一般采取培育杈烟措施进行补救。为了明确雹灾后培育杈烟对烟农效益和烟叶质量的实际效果,调查分析了雹灾后留杈烟株的农艺性状、烟农收益和烟叶质量。结果表明:雹灾后及时采取培育杈烟可挽回比较可观的经济效益,与未受灾烟株烟叶相比,杈烟烤后烟叶外观质量较好,部位特征有向下的趋势;烟叶长度、填充值减小,厚度增加,平衡含水率差异不大;杈烟下部叶常规化学成分与对照差异较大,中部叶差异相对较小;烟叶烟气特征与对照相当,香气质感柔和,香气量和香气特征弱于对照。雹灾后及时培育杈烟是有效的补救措施,尽管烟叶质量与常规烟叶有一定差异,但整体质量指标仍保持在较适宜的范围内。

交叉口网联车速度与信号协同优化控制

网联环境下,为了提升信号交叉口绿灯利用效率,根据网联车与交通设施之间交互的车辆速度、位置及信号状态信息,提出一种单点信号交叉口网联车速度与信号配时协同优化控制方法。该方法基于车队离散理论,预测交叉口车辆到达率并根据预测结果优化交叉口信号配时。在此基础上,以周期内总排队车辆数最小为优化目标,对每辆网联车通过交叉口速度进行判断,按照车辆编号次序求解网联车的最佳行驶速度,实现速度引导与交叉口信号控制有效协调。采用MATLAB软件对模型进行仿真分析。研究结果表明,经信号优化与速度引导协同优化后,提出的速度引导与信号协同控制方法能够在相同时间内增加通过交叉口的车辆数,减少车辆延误,并有效提升交叉口交通效率。

基于浮动车轨迹数据的干线信号协调配时优化

为了提高城市干线的通行效率,缩短车辆在干线行驶时的平均延误,基于浮动车轨迹数据提出一种城市干线交通信号协调控制优化方法。该方法根据浮动车采集的时空轨迹数据,使用最大期望算法对混合车流(浮动车和其他车辆)到达率进行预测。结合信号状态,通过计算干线道路上、下行双向饱和度,以总延误最短为优化目标建立了干线协调配时优化算法,并采用遗传算法进行求解。以合肥市黄山路路段为例,比较无协调控制、传统定时协调控制和基于轨迹数据的信号协调控制。结果表明,所提供的方案可有效缩短干线交叉口车辆总延误,减少燃油消耗。

信息化背景下的医院DRG智慧运营系统研究

信息化高速发展背景下,公立医院亟需搭建适用于不同层级管理者的DRG智慧运营系统。DRG智慧运营系统以大数据为抓手,有效整合、深度挖掘医院的经营数据,通过多维度分析,定位问题,追本溯源到医疗业务,帮助管理者制定战略方针,促进医院内部经营管理提质增效。

Sedimentary environment and organic matter accumulation of Wufeng-Longmaxi shales,southwest Yangtze Plate,China:Insights from geochemical and petrological evidence

Upper Ordovician-Lower Silurian Wufeng-Longmaxi Formation is the most developed strata of shale gas in southern China.Due to the complex sedimentary environment adjacent to the Kangdian Uplift,the favorable area for organic-rich shale development is still undetermined.The authors,therefore,focus on the mechanism of accumulation of organic matter and the characterization of the sedimentary environment of the Wufeng-Longmaxi Shales to have a more complete understanding and new discovering of organic matter enrichment and favorable area in the marginal region around Sichuan Basin.Multiple methods were applied in this study,including thin section identification,scanning electron microscopy(SEM)observations and X-ray diffraction(XRD),and elemental analysis on outcrop samples.Five lithofacies have been defined according to the mineralogical and petrological analyses,including mudstone,bioclastic limestone,silty shale,dolomitic shale,and carbonaceous siliceous shale.The paleo-environments have been reconstructed and the organic enrichment mechanism has been identified as a reduced environment and high productivity.The Wufeng period is generally a suboxic environment and the early Longmaxi period is a reducing environment based on geochemical characterization.High dolomite content in the study area is accompanied by high TOC,which may potentially indicate the restricted anoxic environment formed by biological flourishing in shallower water.And for the area close to the Kangdian Uplift,the shale gas generation capability is comparatively favorable.The geochemical parameters implied that new favorable areas for shale gas exploration could be targeted,and more shale gas resources in the mountain-basin transitional zone might be identified in the future.

适应性理论下西南山地小微农产品品牌设计研究

农产品品牌是提升农业经济的重要手段,而当前多集中于大品牌研究,缺乏针对山地小微农产品品牌研究。文章融入“适应性”理论,从山地环境、人文和农作物等入手,通过小微品牌研究来健全我国农业品牌的梯队体系。

Revealing Al-O/Al-F reaction dynamic effects on the combustion of aluminum nanoparticles in oxygen/fluorine containing environments:A reactive molecular dynamics study meshing together experimental validation

Improving the energy conversion efficiency in metallic fuel(e.g.,Al)combustion is always desirable but challenging,which often involves redox reactions of aluminum(Al)with various mixed oxidizing environments.For instance,Al-O reaction is the most common pathway to release limited energy while Al-F reaction has received much attentions to enhance Al combustion efficiency.However,microscopic understanding of the Al-O/Al-F reaction dynamics remains unsolved,which is fundamentally necessary to further improve Al combustion efficiency.In this work,for the first time,Al-O/Al-F reaction dynamic effects on the combustion of aluminum nanoparticles(n-Al)in oxygen/fluorine containing environments have been revealed via reactive molecular dynamics(RMD)simulations meshing together combustion experiments.Three RMD simulation systems of Al core/O_(2)/HF,n-Al/O_(2)/HF,and n-Al/O_(2)/CF4 with oxygen percentage ranging from 0%to 100%have been performed.The n-Al combustion in mixed O_(2)/CF_4 environments have been conducted by constant volume combustion experiments.RMD results show that Al-O reaction exhibits kinetic benefits while Al-F reaction owns thermodynamic benefits for n-Al combustion.In n-Al/O_(2)/HF,Al-O reaction gives faster energy release rate than Al-F reaction(1.1 times).The optimal energy release efficiency can be achieved with suitable oxygen percentage of 10%and 50%for n-Al/O_(2)/HF and n-Al/O_(2)/CF_4,respectively.In combustion experiments,90%of oxygen percentage can optimally enhance the peak pressure,pressurization rate and combustion heat.Importantly,Al-O reaction prefers to occur on the surface regions while Al-F reaction prefers to proceed in the interior regions of n-Al,confirming the kinetic/thermodynamic benefits of Al-O/Al-F reactions.The synergistic effect of Al-O/Al-F reaction for greatly enhancing n-Al combustion efficiency is demonstrated at atomicscale,which is beneficial for optimizing the combustion performance of metallic fuel.