The subfamily Oxyporinae is easily distinguished from the other subfamilies of the family Staphylinidae by its large,colourful body,elongate mandibles and large crescent-shaped terminal labial palpi.It was once compri...The subfamily Oxyporinae is easily distinguished from the other subfamilies of the family Staphylinidae by its large,colourful body,elongate mandibles and large crescent-shaped terminal labial palpi.It was once comprised only one genus,Oxyporus Fabricius,1775,then a new genus was separated from the nominated genus (Nakane&Sawade,1956),namely Pseudoxyporus.Although the taxonomic validity of Pseudoxyporus was controversial and was treated as a subgenus of Oxyporus (Campbell,1969;Hanley&Goodrich,1995;Herman,2001;Zheng&Song,2010;Tokareva et al.,2021),rencent catalogues and online checklist usually treated it as a valid genus (Shibata,1997;Ito,1999;Schülke&Smetana,2015;Kim et al.,2016;Newton,2022).Based on the structural differences in parameres of aedeagus,and the more cylindrical antennomeres,here we followed the 2-genera-system.展开更多
Business Process Modelling(BPM)is essential for analyzing,improving,and automating the flow of information within organizations,but traditional approaches based on manual interpretation are slow,error-prone,and requir...Business Process Modelling(BPM)is essential for analyzing,improving,and automating the flow of information within organizations,but traditional approaches based on manual interpretation are slow,error-prone,and require a high level of expertise.This article proposes an innovative alternative solution that overcomes these limitations by automatically generating comprehensive Business Process Modelling and Notation(BPMN)diagrams solely from verbal descriptions of the processes to be modeled,utilizing Large Language Models(LLMs)and multimodal Artificial Intelligence(AI).Experimental results,based on video recordings of process explanations provided by an expert from an organization(in this case,the Commercial Courts of a public justice administration),demonstrate that the proposed methodology successfully enables the automatic generation of complete and accurate BPMN diagrams,leading to significant improvements in the speed,accuracy,and accessibility of process modeling.This research makes a substantial contribution to the field of business process modeling,as its methodology is groundbreaking in its use of LLMs and multimodal AI capabilities to handle different types of source material(text and video),combining several tools to minimize the number of queries and reduce the complexity of the prompts required for the automatic generation of successful BPMN diagrams.展开更多
Particulate photocatalytic systems using nanoscale photocatalysts have been developed as an attractive promising route for solar energy utilization to achieve resource sustainability and environmental harmony.Dynamic ...Particulate photocatalytic systems using nanoscale photocatalysts have been developed as an attractive promising route for solar energy utilization to achieve resource sustainability and environmental harmony.Dynamic obstacles are considered as the dominant inhibition for attaining satisfactory energy-conversion efficiency.The complexity in light absorption and carrier transfer behaviors has remained to be further clearly illuminated.It is challenging to trace the fast evolution of charge carriers involved in transfer migration and interfacial reactions within a micro–nano-single-particle photocatalyst,which requires spatiotemporal high resolution.In this review,comprehensive dynamic descriptions including irradiation field,carrier separation and transfer,and interfacial reaction processes have been elucidated and discussed.The corresponding mechanisms for revealing dynamic behaviors have been explained.In addition,numerical simulation and modeling methods have been illustrated for the description of the irradiation field.Experimental measurements and spatiotemporal characterizations have been clarified for the reflection of carrier behavior and probing detection of interfacial reactions.The representative applications have been introduced according to the reported advanced research works,and the relationships between mechanistic conclusions from variable spatiotemporal measurements and photocatalytic performance results in the specific photocatalytic reactions have been concluded.This review provides a collective perspective for the full understanding and thorough evaluation of the primary dynamic processes,which would be inspired for the improvement in designing solar-driven energy-conversion systems based on nanoscale particulate photocatalysts.展开更多
In wireless communication,the problem of authenticating the transmitter’s identity is challeng-ing,especially for those terminal devices in which the security schemes based on cryptography are approxi-mately unfeasib...In wireless communication,the problem of authenticating the transmitter’s identity is challeng-ing,especially for those terminal devices in which the security schemes based on cryptography are approxi-mately unfeasible owing to limited resources.In this paper,a physical layer authentication scheme is pro-posed to detect whether there is anomalous access by the attackers disguised as legitimate users.Explicitly,channel state information(CSI)is used as a form of fingerprint to exploit spatial discrimination among de-vices in the wireless network and machine learning(ML)technology is employed to promote the improve-ment of authentication accuracy.Considering that the falsified messages are not accessible for authenticator during the training phase,deep support vector data de-scription(Deep SVDD)is selected to solve the one-class classification(OCC)problem.Simulation results show that Deep SVDD based scheme can tackle the challenges of physical layer authentication in wireless communication environments.展开更多
The coupling effect of dual-parallel rotor connected stator permanent magnet synchronous motor not only affects the magnetic field in the coupling area, but also generates an additional magnetic field in the uncoupled...The coupling effect of dual-parallel rotor connected stator permanent magnet synchronous motor not only affects the magnetic field in the coupling area, but also generates an additional magnetic field in the uncoupled area.The characteristics of the additional magnetic field and its influence on electromagnetic torque are studied in this paper.The topology and parameters of motor are described briefly.The existence of additional magnetic field is proved by the simulation models under two boundary conditions, and its characteristics and source are analyzed. The analytical model is established, and the influence of key parameters on the additional magnetic field is discussed. On this basis, the influence of the additional magnetic field on the electromagnetic torque of the motor is studied, and the analytical expression of the additional torque is constructed.The fluctuation rule is analyzed, and the additional magnetic field separation model is proposed. The theoretical analysis and simulation results reveal and improve the internal mechanism of reducing motor torque ripple by optimizing the duty angle and coupling distance. Finally, a prototype test platform is built to verify the correctness of the proposed theory and the accuracy of the simulation model.展开更多
This study explores the multifaceted dynamics of silence among Englishas an Additional Language(EAL)learners in Grade 1 STEM(Science,Technology,Engineering,and Mathematics)classrooms throughnarrative inquiry methodolo...This study explores the multifaceted dynamics of silence among Englishas an Additional Language(EAL)learners in Grade 1 STEM(Science,Technology,Engineering,and Mathematics)classrooms throughnarrative inquiry methodology.Drawing on four weeks of teachingpracticum observations,the findings reveal that silence operates not asdisengagement but as cognitive engagement,cultural negotiation,identity management,and emotional self-regulation.Classroom silence,influenced by cultural communication norms,strategic agency,andemotional safety needs,highlights the inadequacy of traditional modelsof verbal participation.By positioning silence as a legitimate form ofparticipation,the study argues for culturally sustaining pedagogicalpractices that validate multimodal and non-verbal student contributions.Insights are also connected to challenges and opportunities in China'semerging inquiry-based STEM education efforts.This research advancesunderstandings of inclusive participation and offers pedagogicalrecommendations for linguistically diverse classrooms.展开更多
The rapid development of urban rail transit has posed increasing construction and operational challenges for metro tunnels,often leading to structural damage.Grouting technology using cement-based materials is widely ...The rapid development of urban rail transit has posed increasing construction and operational challenges for metro tunnels,often leading to structural damage.Grouting technology using cement-based materials is widely applied to address issues such as seepage,leakage,and alignment correction in shield tunnels.This study investigates the additional stress induced by grouting in silty soil layers,using cement-based grouts with different water-to-cement ratios and polyurethane-modified cement-based materials.Results show that additional stress decreases with depth and is more influenced by horizontal distance from the grouting point.In staged grouting,the first injection phase contributes about 50%of the peak additional stress.A lower water-to-cement ratio(e.g.,0.6)increases additional stress but reduces grout flowability,while a higher ratio improves diffusion but increases the risk of grout loss.(≥1.0)The polyurethane-modified cement-based material enhances stress transfer performance,increasing peak additional stress by approximately 10%.These findings provide theoretical guidance for optimizing material selection and grouting design in metro tunnel repair within silty soil layers.展开更多
增材制造技术(additive manufacturing,AM)的发展为高熔点难熔金属(如钨、钼、钽、铌及其合金)复杂构件的近净成形带来了革命性的新机遇。然而,难熔金属材料因熔点高等固有属性,使其增材制造过程呈现出显著有别于其他金属材料的特殊性...增材制造技术(additive manufacturing,AM)的发展为高熔点难熔金属(如钨、钼、钽、铌及其合金)复杂构件的近净成形带来了革命性的新机遇。然而,难熔金属材料因熔点高等固有属性,使其增材制造过程呈现出显著有别于其他金属材料的特殊性。本文基于激光选区熔化(selective laser melting,SLM)和电子束选区熔化(selective electron beam melting,SEBM)等金属粉末床熔融(powder bed fusion,PBF)增材制造技术,系统综述了钨、钼、钽、铌及其合金在增材制造领域的研究进展。重点聚焦于难熔金属粉末原料制备技术,以及成形过程中工艺缺陷(如孔隙率、裂纹、晶粒粗化等)调控策略和组织性能特点。此外,本文还总结了当前增材制造难熔金属在产业化进程中面临的关键挑战,并对未来发展趋势进行了展望。展开更多
基金supported by China West Normal University (17YC352)。
文摘The subfamily Oxyporinae is easily distinguished from the other subfamilies of the family Staphylinidae by its large,colourful body,elongate mandibles and large crescent-shaped terminal labial palpi.It was once comprised only one genus,Oxyporus Fabricius,1775,then a new genus was separated from the nominated genus (Nakane&Sawade,1956),namely Pseudoxyporus.Although the taxonomic validity of Pseudoxyporus was controversial and was treated as a subgenus of Oxyporus (Campbell,1969;Hanley&Goodrich,1995;Herman,2001;Zheng&Song,2010;Tokareva et al.,2021),rencent catalogues and online checklist usually treated it as a valid genus (Shibata,1997;Ito,1999;Schülke&Smetana,2015;Kim et al.,2016;Newton,2022).Based on the structural differences in parameres of aedeagus,and the more cylindrical antennomeres,here we followed the 2-genera-system.
基金funded by Fundación CajaCanarias and Fundación Bancaria“la Caixa”,grant number 2023DIG11.
文摘Business Process Modelling(BPM)is essential for analyzing,improving,and automating the flow of information within organizations,but traditional approaches based on manual interpretation are slow,error-prone,and require a high level of expertise.This article proposes an innovative alternative solution that overcomes these limitations by automatically generating comprehensive Business Process Modelling and Notation(BPMN)diagrams solely from verbal descriptions of the processes to be modeled,utilizing Large Language Models(LLMs)and multimodal Artificial Intelligence(AI).Experimental results,based on video recordings of process explanations provided by an expert from an organization(in this case,the Commercial Courts of a public justice administration),demonstrate that the proposed methodology successfully enables the automatic generation of complete and accurate BPMN diagrams,leading to significant improvements in the speed,accuracy,and accessibility of process modeling.This research makes a substantial contribution to the field of business process modeling,as its methodology is groundbreaking in its use of LLMs and multimodal AI capabilities to handle different types of source material(text and video),combining several tools to minimize the number of queries and reduce the complexity of the prompts required for the automatic generation of successful BPMN diagrams.
基金supported by the Project of National Natural Science Foundation of China(22102095,21773153)the National Key Basic Research and Development Program(2018YFB1502001)financial support from the program of China Scholarships Council(No.202306230242).
文摘Particulate photocatalytic systems using nanoscale photocatalysts have been developed as an attractive promising route for solar energy utilization to achieve resource sustainability and environmental harmony.Dynamic obstacles are considered as the dominant inhibition for attaining satisfactory energy-conversion efficiency.The complexity in light absorption and carrier transfer behaviors has remained to be further clearly illuminated.It is challenging to trace the fast evolution of charge carriers involved in transfer migration and interfacial reactions within a micro–nano-single-particle photocatalyst,which requires spatiotemporal high resolution.In this review,comprehensive dynamic descriptions including irradiation field,carrier separation and transfer,and interfacial reaction processes have been elucidated and discussed.The corresponding mechanisms for revealing dynamic behaviors have been explained.In addition,numerical simulation and modeling methods have been illustrated for the description of the irradiation field.Experimental measurements and spatiotemporal characterizations have been clarified for the reflection of carrier behavior and probing detection of interfacial reactions.The representative applications have been introduced according to the reported advanced research works,and the relationships between mechanistic conclusions from variable spatiotemporal measurements and photocatalytic performance results in the specific photocatalytic reactions have been concluded.This review provides a collective perspective for the full understanding and thorough evaluation of the primary dynamic processes,which would be inspired for the improvement in designing solar-driven energy-conversion systems based on nanoscale particulate photocatalysts.
基金partially supported by the National Key Research and Development Project under Grant2020YFB1806805Social Development Projects of Jiangsu Science and Technology Department under Grant No.BE2018704
文摘In wireless communication,the problem of authenticating the transmitter’s identity is challeng-ing,especially for those terminal devices in which the security schemes based on cryptography are approxi-mately unfeasible owing to limited resources.In this paper,a physical layer authentication scheme is pro-posed to detect whether there is anomalous access by the attackers disguised as legitimate users.Explicitly,channel state information(CSI)is used as a form of fingerprint to exploit spatial discrimination among de-vices in the wireless network and machine learning(ML)technology is employed to promote the improve-ment of authentication accuracy.Considering that the falsified messages are not accessible for authenticator during the training phase,deep support vector data de-scription(Deep SVDD)is selected to solve the one-class classification(OCC)problem.Simulation results show that Deep SVDD based scheme can tackle the challenges of physical layer authentication in wireless communication environments.
基金supported in part by the Natural Science Foundation of Heilongjiang Province under Grant LH2023E084by the National Natural Science Foundation of China under Grant 51777048。
文摘The coupling effect of dual-parallel rotor connected stator permanent magnet synchronous motor not only affects the magnetic field in the coupling area, but also generates an additional magnetic field in the uncoupled area.The characteristics of the additional magnetic field and its influence on electromagnetic torque are studied in this paper.The topology and parameters of motor are described briefly.The existence of additional magnetic field is proved by the simulation models under two boundary conditions, and its characteristics and source are analyzed. The analytical model is established, and the influence of key parameters on the additional magnetic field is discussed. On this basis, the influence of the additional magnetic field on the electromagnetic torque of the motor is studied, and the analytical expression of the additional torque is constructed.The fluctuation rule is analyzed, and the additional magnetic field separation model is proposed. The theoretical analysis and simulation results reveal and improve the internal mechanism of reducing motor torque ripple by optimizing the duty angle and coupling distance. Finally, a prototype test platform is built to verify the correctness of the proposed theory and the accuracy of the simulation model.
文摘This study explores the multifaceted dynamics of silence among Englishas an Additional Language(EAL)learners in Grade 1 STEM(Science,Technology,Engineering,and Mathematics)classrooms throughnarrative inquiry methodology.Drawing on four weeks of teachingpracticum observations,the findings reveal that silence operates not asdisengagement but as cognitive engagement,cultural negotiation,identity management,and emotional self-regulation.Classroom silence,influenced by cultural communication norms,strategic agency,andemotional safety needs,highlights the inadequacy of traditional modelsof verbal participation.By positioning silence as a legitimate form ofparticipation,the study argues for culturally sustaining pedagogicalpractices that validate multimodal and non-verbal student contributions.Insights are also connected to challenges and opportunities in China'semerging inquiry-based STEM education efforts.This research advancesunderstandings of inclusive participation and offers pedagogicalrecommendations for linguistically diverse classrooms.
基金supported by the National Natural Science Foundation of China(No.42477185)Natural Science Foundation of Zhejiang Province(LQ24A020015)+1 种基金Research Achievement Award Cultivation Project of Zhejiang University of Science and Technology(2023JLYB001)the Postgraduate Course Construction Project of Zhejiang University of Science and Technology(2024yjskj05).
文摘The rapid development of urban rail transit has posed increasing construction and operational challenges for metro tunnels,often leading to structural damage.Grouting technology using cement-based materials is widely applied to address issues such as seepage,leakage,and alignment correction in shield tunnels.This study investigates the additional stress induced by grouting in silty soil layers,using cement-based grouts with different water-to-cement ratios and polyurethane-modified cement-based materials.Results show that additional stress decreases with depth and is more influenced by horizontal distance from the grouting point.In staged grouting,the first injection phase contributes about 50%of the peak additional stress.A lower water-to-cement ratio(e.g.,0.6)increases additional stress but reduces grout flowability,while a higher ratio improves diffusion but increases the risk of grout loss.(≥1.0)The polyurethane-modified cement-based material enhances stress transfer performance,increasing peak additional stress by approximately 10%.These findings provide theoretical guidance for optimizing material selection and grouting design in metro tunnel repair within silty soil layers.
文摘增材制造技术(additive manufacturing,AM)的发展为高熔点难熔金属(如钨、钼、钽、铌及其合金)复杂构件的近净成形带来了革命性的新机遇。然而,难熔金属材料因熔点高等固有属性,使其增材制造过程呈现出显著有别于其他金属材料的特殊性。本文基于激光选区熔化(selective laser melting,SLM)和电子束选区熔化(selective electron beam melting,SEBM)等金属粉末床熔融(powder bed fusion,PBF)增材制造技术,系统综述了钨、钼、钽、铌及其合金在增材制造领域的研究进展。重点聚焦于难熔金属粉末原料制备技术,以及成形过程中工艺缺陷(如孔隙率、裂纹、晶粒粗化等)调控策略和组织性能特点。此外,本文还总结了当前增材制造难熔金属在产业化进程中面临的关键挑战,并对未来发展趋势进行了展望。
