Review of Load Balancing Mechanisms in SDN-Based Data Centers

With the continuous expansion of the data center network scale, changing network requirements, and increasing pressure on network bandwidth, the traditional network architecture can no longer meet people’s needs. The development of software defined networks has brought new opportunities and challenges to future networks. The data and control separation characteristics of SDN improve the performance of the entire network. Researchers have integrated SDN architecture into data centers to improve network resource utilization and performance. This paper first introduces the basic concepts of SDN and data center networks. Then it discusses SDN-based load balancing mechanisms for data centers from different perspectives. Finally, it summarizes and looks forward to the study on SDN-based load balancing mechanisms and its development trend.

Recent advances in high charge density triboelectric nanogenerators

Triboelectric materials with high charge density are the building-block for the commercial application of triboelectric nanogenerators(TENGs).Unstable dynamic processes influence the change of the charge density on the surface and inside of triboelectric materials.The charge density of triboelectric materials depends on the surface and the internal charge transfer processes.The focus of this review is on recent advances in high charge density triboelectric materials and advances in the fabrication of TENGs.We summarize the existing strategies for achieving high charge density in triboelectric materials as well as their fundamental properties.We then review current optimization methods for regulating dynamic charge transfer processes to increase the output charge density:first,increasing charge injection and limiting charge dissipation to achieve a high average surface charge density,and second,regulating the internal charge transfer process and storing charge in triboelectric materials to increase the output charge density.Finally,we present the challenges and prospects in developing high-performance triboelectric materials.

硅铝二元膜包覆SrAl_(2)O_(4):Eu^(2+),Dy^(3+)荧光悬浮液显现潜在手印的研究

采用溶胶-凝胶法对SrAl_(2)O_(4):Eu^(2+),Dy^(3+)表面进行硅膜和铝膜包覆,制成硅铝二元膜包覆SrAl_(2)O_(4):Eu^(2+),Dy^(3+)荧光粉末,将该荧光粉末配制成小颗粒悬浮液后,应用于疑难复杂客体表面潜在手印的显现。研究表明,硅铝二元膜包覆SrAl_(2)O_(4):Eu^(2+),Dy^(3+)荧光悬浮液在365 nm紫外光照射下能够发射出明亮的绿色荧光,显出的手印纹线清晰连贯、细节特征明显,且在撤去灯光后能够持续发光,可以消除客体背景色的干扰。该悬浮液对常见渗透性客体、非渗透性客体、陈旧手印和水浸客体表面潜在手印均具有良好显现效果,特别是对背景颜色复杂、具有自体荧光的客体,其长余辉特性能够实现手印的无背景显现。

An introductory review on the common brown leafhopper(Orosius orientalis):A new soybean pest

Soybean pests are one of the major factors limiting yield improvement.With the expansion of area and changes in cropping patterns,a number of new pests have been identified in the main soybean production areas of China.The common brown leafhopper,Orosius orientalis,is a new pest associated with soybean stay-green virus that has been discovered on cultivated soybean crop in the Yellow-Huai-hai region of China in recent years.The polyphagous insect has a wide feeding range and infests a variety of important grain and cash crops.This paper presents the basic information,geographical distribution,hosts,damage characteristics,plant virus transmission,occurrence patterns,and prevention and control measures O.orientalis.This review also provides insights into integrated prevention and control of the genus Orosius as an insect vector.

Multipath Selection Algorithm Based on Dynamic Flow Prediction

Traditional traffic management techniques appear to be incompetent in complex data center networks, so proposes a load balancing strategy based on Long Short-Term Memory (LSTM) and quantum annealing by Software Defined Network (SDN) to dynamically predict the traffic and comprehensively consider the current and predicted load of the network in order to select the optimal forwarding path and balance the network load. Experiments have demonstrated that the algorithm achieves significant improvement in both system throughput and average packet loss rate for the purpose of improving network quality of service.

钐钆共掺杂荧光配合物的合成及在潜手印显现中的应用

以2-噻吩甲酰三氟丙酮(TTA)为第一配体,邻菲罗啉(o-Phen)为第二配体,利用共沉淀法合成一系列钐钆共掺杂荧光配合物,并优化了该系列荧光配合物的合成条件(反应温度、体系pH、稀土离子相对含量)。将最优条件合成的Sm_(0.5)Gd_(0.5)TTA_(3)(o-Phen)荧光配合物粉末用于常见光滑非渗透性客体表面潜在手印的显现,从灵敏度、对比度、选择性、适用性等方面对显现手印效果进行了详细考察。结果表明,显现后的手印在365nm紫外光的激发下,手印与客体背景呈现强烈的颜色反差,手印纹线连贯清晰,细节特征明显可见。该粉末显现手印对比度高,选择性好,适用性强,对陈旧手印也表现出较好的显现效果。

多孔介质渗透迂曲度理论推导与实验验证

多孔介质孔隙连通的定量表征与拓扑连通重构是揭示流体渗透规律的几何方法,而理论工作的滞后严重制约了新的几何建模方法产生。迂曲度是连接渗透率与几何结构的关键载体之一,其理论模型一直没有突破。结合Hagen-Poiseuille与Darcy公式,推导了毛细管迂曲度的普适表达式及颗粒构成孔道的迂曲度公式。针对低渗介质,结合毛细管压力公式,获得了含饱和度的迂曲度公式。引入迂曲度分维,获得基于实验解析的分形影响系数表达式。对于分叉毛细管孔道,建立分叉模型,分析了迂曲度特征,得到了基于能量优化准则的母孔、子孔几何关系。以低渗盐岩渗透为例,验证了迂曲度理论公式的适用性与可靠性,研究结果为多孔介质求解迂曲度提供了一种新的思路。

铽荧光配合物小颗粒悬浮液显现潜在手印的研究

以稀土铽、对甲基苯甲酸、邻菲罗啉为原料合成铽三元荧光配合物,以水为溶剂,加入表面活性剂和铽配合物制成小颗粒悬浮液,用于常见非渗透性客体表面潜在手印的显现,并对悬浮液显现手印条件进行优化。结果显示合成的铽荧光配合物在365 nm紫外灯照射下发出绿色荧光;配置悬浮液显出手印纹线清晰,细节特征明显;材料具有优异荧光特性和广泛适用性。

高铁票表面汗潜手印的显现方法研究

高铁票上的汗潜手印对案件的侦破发挥着至关重要的作用,尤其是在打击、侦破跨地区流窜系列案件中,高铁票往往会成为现场主要或者唯一物证,其表面汗潜手印的显现效果关乎案件是否能够快速顺利侦破。目前,公安基层实战中对高铁票表面汗潜手印的显现还没有便捷、快速的方法。为找到一种实用、简便的显现方法,本文分别使用手印提取胶片显现法、黄色磁性荧光粉末显现法、硝酸银溶液显现法、“502”胶合剂显现法、碘熏显现法五种方法对高铁票正面和背面汗潜手印进行显现研究,并选择一种最好的方法进行遗留时间的考察,为侦查破案提供参考。

剪切粗糙裂隙渗流多尺度分形表征

甘肃北山为高放废物深地质处置库场址的主预选区。针对场址区花岗岩受剪切破坏形成裂隙的渗流特性进行研究,具有重要的工程建设指导意义。为探究北山花岗岩多尺度粗糙裂隙几何特征对非线性渗流场演化的影响规律,对剪切条件下花岗岩裂隙断面的几何特征及渗流特性进行了分形建模研究。结果表明,粗糙裂隙的粗糙程度和开度在模型尺度变化过程中存在完全的自相似性,二者的分布特征在分布空间尺度变化过程中始终保持一致;渗流速度场、梯度场及散度场只存在局部特征的延续,尤其是不同尺度下对应的数量场均服从于正态分布;随着观察尺度的增大场内空间起伏逐渐减小,三场内的尖锐突变逐渐消失且向平滑过渡,这意味着观察尺度越大,粗糙裂隙渗流被误判为平行板渗流的概率越大,即粗糙断面渗流特性的精准描述依赖于几何尺度。

肺段切除术治疗早期非小细胞肺癌的预后研究进展

目前手术是治疗早期非小细胞肺癌(non-small cell lung cancer,NSCLC)最好的方式,随着越来越多的单侧或双侧的多原发肺癌被发现,肺段切除术因对这类肿瘤的治疗有着独特的优势而受到广泛关注。磨玻璃为主的早期NSCLC可以通过肺段切除术获得很好的生存预后,而实性为主的NSCLC具有更高的侵袭性,其治疗手段依然存在争议。随着对肺癌的淋巴结转移途径、影像特征和分子生物学方面的深入研究,这类实性结节如果具备一定的特点也能通过肺段切除术达到根治目的。本文针对影响肺段切除术预后的因素展开综述。

自制转印膜显现不同客体表面新鲜汗潜手印的研究

采用塑料片、滤纸、打印纸等几种客体作为转印膜载体,在这几类载体上均匀附着于手印物质反应特别灵敏的试剂(茚三酮、硝酸银、DFO)制作成转印膜。自制转印膜对不同客体上汗潜手印进行盖印或者转印显现,考察最佳显现方法及载体,为基层技术工作提供参考。

人工智能与未来教育评价

人工智能算法如何才能准确把握人与人之间交流时传递的深层次思想,是人工智能教育评价系统面临的最大挑战之一。这需要相关工作者对人工智能、动态对话以及统计分析有着更加深入的了解。在医学应用中,人工智能决策判断的有效性主要由“敏感性”和“特异性”两个统计指标进行衡量。虽然这些统计数据有助于了解总体情况,但却忽略了一个事实,即无论如何增加机器学习的训练数据,都无法消除判断的不确定性。因此,在教育应用中,必须考虑人与机器如何协同工作,以提高未来教育评价的效率,并为对话教育创造更多空间。文章着重分析机器学习、贝叶斯统计方法对改变基于人工智能的教育评价的可能性,强调未来教育评价最基本的问题是明晰人与机器所擅长的领域各不相同,人工智能在教学过程中提供自动、高效和准确的反馈,可以帮助学生实现自主学习和自我评价;而对于机器无法确定的决策判断,则需要教师的参与和干预。据此提出,将当前人工智能在医学诊断等领域的成功应用,拓展到教育评价中,是未来教育改革的必然趋势,将带来人(教师和学生)与机器之间的密切合作。其中,信任是这个过程中最重要的因素,要增强人们对人工智能教育评价的信任,就需对机器学习过程进行更全面的检测,并用更丰富的信息来判断特定结果的准确度。而准确度可能是未来教育评价技术中最为重要一个部分,其能够引发新的学校教育实践,并更有效地利用教师专业知识,同时也能促进自主学习、师生对话和互动。

大数据、人工智能与未来学习

随着以机器学习为核心的人工智能技术的发展,智能教育的应用也日益广泛。特别是新冠肺炎疫情期间,大型科技公司教育软件和教学平台被大量采用并融入到教育领域的核心环节。在此背景下,不仅要关注新技术给教育教学带来的潜力和机会,同时也要对数据驱动的智能教育进行批判性反思。文章从两个方面阐述数据驱动的智能教育可能对教育教学带来的负面影响和冲击:一是“学习界差”,表现为由于智能学习平台的所有者和用户对数据知识的掌握和了解不同,而导致的多种明显不平等现象;二是“行为主义”的回归,即众多智能教育产品和应用以落后的行为主义学习理念和方法为主导。为了对数据驱动技术因势利导,亦突出学生作为教育主体的能动作用,文章通过两个实证性研究案例提供以学生学习为中心进行数据素养教育的可能途径:“学习报告卡”项目让学生参与开发和设计学习分析应用;“关键数据与教育”课程则要求学生采用手绘而非机器自动化的方式进行数据可视化。文章可以为培养学生对数据驱动技术和未来教育进行批判性思考提供有益启示。

钐钇共掺杂荧光配合物的制备及其在潜在手印显现中的应用

以稀土钐、钇为中心离子、TTA为第一配体,邻菲罗啉为第二配体,使用共沉淀法在50℃、pH值为7的条件下合成了三元稀土荧光配合物Sm_(0.5)Y_(0.5)TTA_(3)(o-Phen)。在365 nm紫外光照射下,合成粉末发出强烈的红色荧光。将Sm_(0.5)Y_(0.5)TTA_(3)(o-Phen)粉末用于客体表面潜在手印显现,考察对比度、灵敏度、选择性和适用性,结果显现的手印纹线流畅,细节清晰,粉末不黏附小犁沟,对比度高,适用性强。此外,该粉末对陈旧潜在手印也具有较好显现效果。

铽三元配合物悬浮液在潜在手印显现中的应用研究

以铽为中心配体,对氯苯甲酸和邻菲罗啉分别为第一配体、第二配体,采用水热法合成出性能优异的铽三元新型稀土荧光配合物,将其与阳离子表面活性剂十二烷基三甲基溴化铵、蒸馏水按照相应的配比进行混合,配制成新型荧光悬浮液,并经过一系列条件(表面活性剂浓度、显现时间、浸洗方式)优化,成功应用于陈旧手印的显现技术中。结果表明,在254 nm紫外光的照射下,显现后的手印发出明亮的绿色荧光,背景干扰较低,纹线反映清晰流畅,细节特征反应明显。该显现方法适用于光滑非渗透性客体、部分半渗透性客体表面上潜在手印的显现,对陈旧手印具有较好的显现效果。

Temperature field model in surface grinding: a comparative assessment

Grinding is a crucial process in machining workpieces because it plays a vital role in achieving the desired precision and surface quality.However,a significant technical challenge in grinding is the potential increase in temperature due to high specific energy,which can lead to surface thermal damage.Therefore,ensuring control over the surface integrity of workpieces during grinding becomes a critical concern.This necessitates the development of temperature field models that consider various parameters,such as workpiece materials,grinding wheels,grinding parameters,cooling methods,and media,to guide industrial production.This study thoroughly analyzes and summarizes grinding temperature field models.First,the theory of the grinding temperature field is investigated,classifying it into traditional models based on a continuous belt heat source and those based on a discrete heat source,depending on whether the heat source is uniform and continuous.Through this examination,a more accurate grinding temperature model that closely aligns with practical grinding conditions is derived.Subsequently,various grinding thermal models are summarized,including models for the heat source distribution,energy distribution proportional coefficient,and convective heat transfer coefficient.Through comprehensive research,the most widely recognized,utilized,and accurate model for each category is identified.The application of these grinding thermal models is reviewed,shedding light on the governing laws that dictate the influence of the heat source distribution,heat distribution,and convective heat transfer in the grinding arc zone on the grinding temperature field.Finally,considering the current issues in the field of grinding temperature,potential future research directions are proposed.The aim of this study is to provide theoretical guidance and technical support for predicting workpiece temperature and improving surface integrity.

Atomic layer deposition enabling higher efficiency solar cells:A review

Atomic layer deposition(ALD)can synthesise materials with atomic-scale precision.The ability to tune the material composition,film thickness with excellent conformality,allow low-temperature processing,and in-situ real-time monitoring makes this technique very appealing for a wide range of applications.In this review,we focus on the application of ALD layers in a wide range of solar cells.We focus on industrial silicon,thin film,organic and quantum dot solar cells.It is shown that the merits of ALD have already been exploited in a wide range of solar cells at the lab scale and that ALD is already applied in high-volume manufacturing of silicon solar cells.

Material Removal Mechanism and Force Modeling in Ultrasonic Vibration-Assisted Micro-Grinding Biological Bone

Micro-grinding with a spherical grinding head has been deemed an indispensable method in high-risk surgeries, such as neurosurgery and spine surgery, where bone grinding has long been plagued by the technical bottleneck of mechanical stress-induced crack damage. In response to this challenge, the ultrasound-assisted biological bone micro-grinding novel process with a spherical grinding head has been proposed by researchers. Force modeling is a prerequisite for process parameter determination in orthopedic surgery, and the difculty in establishing and accurately predicting bone micro-grinding force prediction models is due to the geometric distribution of abrasive grains and the dynamic changes in geometry and kinematics during the cutting process. In addressing these critical needs and technical problems, the shape and protrusion heights of the wear particle of the spherical grinding head were frst studied, and the gradual rule of the contact arc length under the action of high-speed rotating ultrasonic vibration was proposed. Second, the mathematical model of the maximum thickness of undeformed chips under ultrasonic vibration of the spherical grinding head was established. Results showed that ultrasonic vibration can reduce the maximum thickness of undeformed chips and increase the range of ductile and bone meal removals, revealing the mechanism of reducing grinding force. Further, the dynamic grinding behavior of diferent layers of abrasive particles under diferent instantaneous interaction states was studied. Finally, a prediction model of micro-grinding force was established in accordance with the relationship between grinding force and cutting depth, revealing the mechanism of micro-grinding force transfer under ultrasonic vibration. The theoretical model’s average deviations are 10.37% in x-axis direction, 6.85% in y-axis direction, and 7.81% in z-axis direction compared with the experimental results. This study provides theoretical guidance and technical support for clinical bone micro-grinding.

KLK14与恶性肿瘤转移关系的研究进展

人组织激肽释放酶14(Kallikrein-related peptidase 14,KLK14)是人组织激肽释放酶家族(Kallikrein-related peptidases,KLKs)中的一员,广泛存在于多种组织及生物体液中,发挥着重要的生理作用。目前有研究表明KLK14可以作为多种恶性肿瘤诊断和预后的生物标志物,并且参与恶性肿瘤细胞增殖、侵袭、迁移等多种生物学功能的调控。KLK14作为一种分泌型丝氨酸蛋白酶,可以通过多种途径促进肿瘤细胞转移,而肿瘤转移是导致恶性肿瘤临床治疗失败以及患者死亡的主要原因。因此,本文将基于已有的研究就KLK14在肿瘤转移中的作用和可能机制进行综述,以期为恶性肿瘤的诊断及精准治疗提供新策略与新思路。