Plant height(PH),primary lateral branch length(PBL),and branch number(BN)are architectural components impacting peanut pod yield,biomass production,and adaptivity to mechanical harvesting.In this study,a recombinant i...Plant height(PH),primary lateral branch length(PBL),and branch number(BN)are architectural components impacting peanut pod yield,biomass production,and adaptivity to mechanical harvesting.In this study,a recombinant inbred population consisting of 181 individual lines was used to determine genetic controls of PH,PBL,and BN across three environments.Phenotypic data collected from the population demonstrated continuous distributions and transgressive segregation patterns.Broad-sense heritability of PH,PBL,and BN was found to be 0.87,0.88,and 0.92,respectively.Unconditional individual environmental analysis revealed 35 additive QTLs with phenotypic variation explained(PVE)ranging from 4.57 to 21.68%.A two-round meta-analysis resulted in 24consensus and 19 unique QTLs.Five unique QTLs exhibited pleiotropic effects and their genetic bases(pleiotropy or tight linkage)were evaluated.A joint analysis was performed to estimate the QTL by environment interaction(QEI)effects on PH,PBL,and BN,collectively explaining phenotypic variations of 10.80,11.02,and 7.89%,respectively.We identified 3 major and stable QTL regions(uq9-3,uq10-2,and uq16-1)on chromosomes 9,10,and 16,spanning1.43-1.53 Mb genomic regions.Candidate genes involved in phytohormones biosynthesis,signaling,and cell wall development were proposed to regulate these morphological traits.These results provide valuable information for further genetic studies and the development of molecular markers applicable to peanut architecture improvement.展开更多
Accurately forecasting the triple point(TP)path is essential for analyzing blast loads and assessing the destructive effectiveness of the height of burst explosion.Empirical models that describe the TP path under norm...Accurately forecasting the triple point(TP)path is essential for analyzing blast loads and assessing the destructive effectiveness of the height of burst explosion.Empirical models that describe the TP path under normal temperature and pressure environments are commonly employed;however,in certain configurations,such as at high-altitudes(HAs),the environment may involve low temperature and pressure conditions.The present study develops a theoretical prediction model for the TP path under reduced pressure and temperature conditions,utilizing the image bursts method,reflected polar analysis,and dimensional analysis.The model's accuracy is evaluated through numerical simulations and experimental data.Results indicate that the prediction model effectively evaluates the TP path under diminished temperature and pressure conditions,with most predictions falling within a±15%deviation.It was found that the TP height increases with altitude.As the altitude rises from 0 m to 10,000 m,the average TP height increases by 61.7%,87.9%,109.0%,and 134.3%for the scaled height of burst of 1.5 m,2.0 m,2.5 m,and 3.0 m,respectively.Moreover,the variation in TP height under HA environments closely mirrors that observed under corresponding reduced pressure conditions.In HA environments,only the effect of low-pressure conditions on the TP path needs to be considered,as the environmental lowtemperature has a minimal effect.展开更多
Objective To assess health equity in the Yangtze River region to improve understanding of the correlation between hand, foot, and mouth disease(HFMD) and socioeconomic factors.Methods From 2014–2016, data on HFMD inc...Objective To assess health equity in the Yangtze River region to improve understanding of the correlation between hand, foot, and mouth disease(HFMD) and socioeconomic factors.Methods From 2014–2016, data on HFMD incidence, population statistics, economic indicators, and meteorology from 26 cities along the Yangtze River were analyzed. A multi-city random-effects metaanalysis was performed to study the relationship between temperature and HFMD transmission, and health equity was assessed with respect to socio-economic impact.Results Over the study period, 919,458 HFMD cases were reported, with Shanghai(162,303) having the highest incidence and Tongling(5,513) having the lowest. Males were more commonly affected(male-to-female ratio, 1.49:1). The exposure-response relationship had an M-shaped curve, with two HFMD peaks occurring at 4 ℃ and 26 ℃. The relative risk had two peaks at 1.30 ℃(1.834, 95% CI:1.204–2.794) and 31.4 ℃(1.143, 95% CI: 0.901–1.451), forming an M shape, with the first peak higher than the second. The most significant impact of temperature on HFMD was observed between –2 ℃ and18.1 ℃. The concentration index(0.2463) indicated moderate concentration differences, whereas the Theil index(0.0418) showed low inequality in distribution.Conclusion The incidence of HFMD varied across cities, particularly with changes in temperature.Economically prosperous areas showed higher risks, indicating disparities. Targeted interventions in these areas are crucial for mitigating the risk of HFMD.展开更多
The article presents a methodology for transitioning to the Amsterdam height system based on utilizing global and regional geoid/quasi-geoid models.The study was conducted for the Polish-Ukrainian cross-border sector ...The article presents a methodology for transitioning to the Amsterdam height system based on utilizing global and regional geoid/quasi-geoid models.The study was conducted for the Polish-Ukrainian cross-border sector and expanded to the entire territory of Poland and Ukraine.The input data comprised two regional and five global geoid/quasi-geoid models.The initial data analysis was conducted for all models relative to GNSS/leveling data in the Baltic height system.The secondary analysis was performed relative to the combined PL-quasi-geoid2021 model and the gravimetric EGG2015 model.Based on the analysis results,a methodology for optimizing heights between regional and global geoid/quasi-geoid models was developed,including the following stages:calculation of conditional global and regional geoid/quasi-geoid heights,calculation of approximately predicted height differences between the conditional regional and global geoid/quasi-geoid,implementation of the refinement(correction)of approximate heights at the regional model,optimization of approximate heights at the regional model,and calculation of a regional combined model in the Amsterdam height system.The developed methodology enables the integration of regional and global geoid/quasi-geoid models into the Amsterdam height system with an accuracy of 1-2 cm by optimizing their heights.The advantage of this methodology is that it requires only a minimal amount of GNSS/leveling data to establish connections between different height systems.展开更多
Background: Puffy hand syndrome (PHS) is a rare complication primarily associated with intravenous drug use (IVDU), characterized by chronic swelling and fibrosis of the hands due to lymphatic damage. Concurrent pulmo...Background: Puffy hand syndrome (PHS) is a rare complication primarily associated with intravenous drug use (IVDU), characterized by chronic swelling and fibrosis of the hands due to lymphatic damage. Concurrent pulmonary complications, such as pneumonia and pneumothorax, significantly contribute to increased morbidity in this population. Case Presentation: We report the case of a 28-year-old female who injects drugs, and presents with fever, bilateral hand edema, and respiratory symptoms. Clinical evaluation revealed erythema and edema of both hands, elevated inflammatory markers, and a left lower lobe infiltration that progressed to pneumothorax. A diagnosis of PHS and left lower lobe pneumonia complicated by pneumothorax was established. Management and Outcomes: The patient was treated with broad-spectrum antibiotics, including ceftriaxone, levofloxacin, dexamethasone, and oxygen supplementation, as well as antipyretics. She demonstrated partial clinical improvement and was referred to another hospital’s thoracic surgery department for specialized care. Conclusions: This case underscores the importance of early recognition and multidisciplinary management of rare but serious complications in IVDU patients. Further research is necessary to elucidate the interplay between lymphatic dysfunction and pulmonary pathophysiology in this demographic.展开更多
Objectives: To propose the improvements measures by analysing the influencing factors of hand hygiene (HH) compliance by observing the behaviour of health care workers (HCWs). Method: The observational study was condu...Objectives: To propose the improvements measures by analysing the influencing factors of hand hygiene (HH) compliance by observing the behaviour of health care workers (HCWs). Method: The observational study was conducted at a public tertiary hospital in Zhejiang, China, from September 2018 to March 2021. A total of 58 HH observers were trained to conduct a direct observation on the HH behaviors of personnel in the hospital amongst the health care workers. We have observed over 9000 hand hygiene opportunities. The collected data were classified according to time factors, department parameters, and profession conduct of the observed. Hand hygiene (HH) compliance rates were calculated for each category, and a chi-square test was used to analyze differences of the HH compliance rates. Furthermore, binary logistic regression was used for multivariate analysis in each of the hand hygiene moments. Results: The HH compliance rates of HCWs were statistically different before and after the Corona Virus Disease 2019 (COVID-19) pandemic, in the morning and the afternoon, this was observed per parameters stated into objectives on weekdays vs non weekdays. And we found that HH compliance rates drop off a cliff from weekdays to non-weekdays. Conclusions: COVID-19, departments, professions, and weekdays were all factors that influence HH compliance amongst HCWs. However, the influencing factors were not all present in every HH behavior, and had different intensities of influence on HH compliance amongst the HCWs. These findings provide some reference for us to propose improvement measures.展开更多
The rapid evolution of virtual reality(VR)and augmented reality(AR)technologies has significantly transformed human-computer interaction,with applications spanning entertainment,education,healthcare,industry,and remot...The rapid evolution of virtual reality(VR)and augmented reality(AR)technologies has significantly transformed human-computer interaction,with applications spanning entertainment,education,healthcare,industry,and remote collaboration.A central challenge in these immersive systems lies in enabling intuitive,efficient,and natural interactions.Hand gesture recognition offers a compelling solution by leveraging the expressiveness of human hands to facilitate seamless control without relying on traditional input devices such as controllers or keyboards,which can limit immersion.However,achieving robust gesture recognition requires overcoming challenges related to accurate hand tracking,complex environmental conditions,and minimizing system latency.This study proposes an artificial intelligence(AI)-driven framework for recognizing both static and dynamic hand gestures in VR and AR environments using skeleton-based tracking compliant with the OpenXR standard.Our approach employs a lightweight neural network architecture capable of real-time classification within approximately 1.3mswhilemaintaining average accuracy of 95%.We also introduce a novel dataset generation method to support training robust models and demonstrate consistent classification of diverse gestures across widespread commercial VR devices.This work represents one of the first studies to implement and validate dynamic hand gesture recognition in real time using standardized VR hardware,laying the groundwork for more immersive,accessible,and user-friendly interaction systems.By advancing AI-driven gesture interfaces,this research has the potential to broaden the adoption of VR and AR across diverse domains and enhance the overall user experience.展开更多
Antarctic clouds and their vertical structures play a significant role in influencing the regional radiation budget and ice mass balance;however,substantial uncertainties persist.Continuous monitoring and research are...Antarctic clouds and their vertical structures play a significant role in influencing the regional radiation budget and ice mass balance;however,substantial uncertainties persist.Continuous monitoring and research are essential for enhancing our understanding of these clouds.This study presents an analysis of cloud occurrence frequency and cloud-base heights(CBHs)at Zhongshan Station in East Antarctica for the first time,utilizing data from a C12 ceilometer covering the period from January 2022 to December 2023.The findings indicate that low clouds dominate at Zhongshan Station,with an average cloud occurrence frequency of 75%.Both the cloud occurrence frequency and CBH distribution exhibit distinct seasonal variations.Specifically,the cloud occurrence frequency during winter is higher than that observed in summer,while winter clouds can develop to greater heights.Over the Southern Ocean,the cloud occurrence frequency during summer surpasses that at Zhongshan Station,with clouds featuring lower CBHs and larger extinction coefficients.Furthermore,it is noteworthy that CBHs derived from the ceilometer are basically consistent with those obtained from radiosondes.Importantly,ERA5 demonstrates commendable performance in retrieving CBHs at Zhongshan Station when compared with ceilometer measurements.展开更多
Background:Muscular strength is a powerful marker of current health status and robust predictor of age-related disease and disability.Handgrip strength(HGS)using isometric dynamometry is a convenient,feasible,and wide...Background:Muscular strength is a powerful marker of current health status and robust predictor of age-related disease and disability.Handgrip strength(HGS)using isometric dynamometry is a convenient,feasible,and widely used method of assessing muscular strength among people of all ages.While adult HGS norms have been published for many countries,no study has yet synthesized available data to produce international norms.The objective of this study was to generate international sex-and age-specific norms for absolute and body size-normalized HGS across the adult lifespan.Methods:Systematic searches were conducted in 6 databases/web search engines(MEDLINE,SPORTDiscus,Embase,Web of Science,CINAHL,and Google Scholar)up to December 1,2023.We included full-text peer-reviewed observational studies that reported normative HGS data for adults aged ≥20 years by sex and age.Pseudo data were generated using Monte Carlo simulation following harmonization for methodo-logical variation.Population-weighted Generalized Additive Models for Location,Scale,and Shape were used to develop sex-and age-specific norms for absolute HGS(kg)and HGS normalized by height(Ht,m)squared(i.e.,HGS/Ht^(2)in kg/m^(2)).Norms were tabulated as percentile values(5th to 95th)and visualized as smoothed percentile curves.Results:We included data from 100 unique observational studies representing 2,405,863 adults(51.9%female)aged 20 to 100+years from 69 countries and regions tested from the year 2000 onward.On average,absolute and normalized HGS values negligibly improved throughout early adulthood,peaked from age 3039 years(at 49.7 kg(males)and 29.7 kg(females)for absolute HGS or 16.3 kg/m^(2)(males)and 11.3 kg/m^(2)(females)for HGS/Ht^(2)),and declined afterwards.The age-related decline in HGS accelerated from middle to late adulthood and was slightly larger for males than for females during middle adulthood.Conclusion:This study provides the world’s largest and most geographically comprehensive international norms for adult HGS by sex and age.These norms have utility for global peer-comparisons,health screening,and surveillance.展开更多
Objective:While albumin and the weight-standardized hand grip strength(HGS/W)serve as valuable prognostic indicators for cancer patients,their correlation with the prognosis in frail cancer patients remains inadequate...Objective:While albumin and the weight-standardized hand grip strength(HGS/W)serve as valuable prognostic indicators for cancer patients,their correlation with the prognosis in frail cancer patients remains inadequately explored.This study aimed to investigate the prognostic importance of the albumin level and HGS/W in cancer patients with frailty and to further investigate their combined prognostic value.Moreover,this comprehensive evaluation aimed to facilitate timely intervention and treatment for frail patients.Methods:The research enrolled 5,794 cancer patients identified with frailty from a multicenter research database.The diagnosis of frailty was based on the FRAIL scale.An Albumin-HGS/W score was constructed by combining the albumin and HGS/W values.Cox proportional hazard regression was utilized to examine the association between the albumin level and HGS/W and patient outcomes.Results:Among these patients,2,543 were females and 3,251 were males,with a median age of 60.0 years.Optimal stratification based on patient survival revealed the ideal threshold for HGS/W to be 0.48 for males and 0.39 for females,and for albumin to be 38 for both sexes.The fully adjusted model revealed that higher Albumin-HGS/W scores were correlated with a poorer patient prognosis.Notably,an Albumin-HGS/W score of 2 was associated with a higher risk of mortality compared with a score of 0 in the total population(HR:1.813,95%CI:1.580-2.080,P<0.001).Conclusions:Low albumin or HGS/W values are associated with low survival in cancer patients with frailty.Elevated Albumin-HGS/W scores were linked to decreased survival rates in cancer patients with frailty.展开更多
This article delves Chern's conjecture for hypersurfaces with constant second fundamental form squared length S in the spherical space.At present,determining whether the third gap point of S is 2n remains unsolved...This article delves Chern's conjecture for hypersurfaces with constant second fundamental form squared length S in the spherical space.At present,determining whether the third gap point of S is 2n remains unsolved yet.First,we investigate the height functions and their properties of the position vector and normal vector in natural coordinate vectors,and then prove the existence of a Simons-type integral formula on the hypersurface that simultaneously includes the first,second,and third gap point terms of S.These results can provide new avenues of thought and methods for solving Chern's conjecture.展开更多
Hand function impairment after stroke has become a key and difficult issue in clinical rehabilitation due to complex neural innervation and a long recovery cycle.Biofeedback technology combined with occupational thera...Hand function impairment after stroke has become a key and difficult issue in clinical rehabilitation due to complex neural innervation and a long recovery cycle.Biofeedback technology combined with occupational therapy can make up for the limitations of single therapy and provide a new solution for hand function rehabilitation after stroke.This paper systematically sorts out the theoretical basis and clinical research progress of biofeedback technology combined with occupational therapy in hand function rehabilitation after stroke,and looks forward to the future development direction,aiming to provide reference for clinical rehabilitation practice and scientific research.展开更多
The mining height of a coal seam is a critical factor influencing the detachment,collapse,and formation of the collapse angle of the strata during strata movement.To clarify the mechanism by which mining height affect...The mining height of a coal seam is a critical factor influencing the detachment,collapse,and formation of the collapse angle of the strata during strata movement.To clarify the mechanism by which mining height affects strata movement characteristics,a physical model experiment was conducted based on the geological conditions of the Panel 122104 in Caojiatan Coal Mine in Shaanxi.The experiment examined strata movement at mining heights of 1 m and 10 m,identifying differences in detachment,collapse behavior,and collapse angles under these two conditions.The results indicate the following:Delamination range directly governs collapse patterns,with higher stress concentration accelerating delamination initiation and expanding affected zones.1 m mining height exhibits a“superposed fixed beam”structure with lower strength compared to the“fixed beam+cantilever beam”configuration under 10 m height.A model estimating collapse step shows 9.13%average error.Strata structure dictates collapse angle mechanisms:Pseudo-plastic deformation under 1 m height determines collapse angle through vertical tensile stress boundaries,whereas 10 m height exhibits brittle fracture behavior with collapse angles approximating fracture angles.Periodic collapse volume above working face directly correlates with mine pressure intensity and is positively correlated with the caving step distance,collapse angle,and caving range.These parameters show higher values under 10 m mining height,resulting in more pronounced mine pressure manifestations compared to 1 m conditions.展开更多
Recent years have witnessed unprecedented development in humanoid robotics,with dexterous hand grasping emerging as a focal research area across industrial and academic sectors.To track the state-of-the-art dexterous ...Recent years have witnessed unprecedented development in humanoid robotics,with dexterous hand grasping emerging as a focal research area across industrial and academic sectors.To track the state-of-the-art dexterous hand grasp,a review of dexterous hand grasp based on bibliometric analysis is executed.The related studies on dexterous hand grasp are collected from the Web of Science for analysis,where the publication details and cooperation situations from the perspectives of country,institute,etc.are discussed.The keywords cluster is adopted to find the hot research topic of dexterous hand grasp.The development trend of dexterous hand grasp is explored based on the top 25 keywords with the strongest citation bursts.The review findings indicate that precision control via multimodal fusion,autonomous task understanding and intelligent decision,and in-hand dexterous manipulation are top three hotspots in future.展开更多
As Thailand and China mark the 50th anniversary of their diplomatic ties this year,most headlines will naturally focus on trade deals,railways,and strategic partnerships.But tucked behind the golden spires of Bangkok...As Thailand and China mark the 50th anniversary of their diplomatic ties this year,most headlines will naturally focus on trade deals,railways,and strategic partnerships.But tucked behind the golden spires of Bangkok’s Wat Po temple lies a quieter,gentler form of diplomacy—one that happens through kneading hands,respectful bows,and an ancient art passed down across generations.At the Wat Po Thai Traditional Medical School,headmaster Serat Tangtrongchitr sees Thai massage not only as a healing craft,but as a cultural bridge—one that connects people across borders,languages,and belief systems.“We don’t just teach massage,”Serat said,his voice calm but assured.“We teach a way of life.And when people from other cultures learn this with us—Chinese students included—they come to understand not just the techniques,but the heart of Thai culture.”展开更多
Rib spalling is a highly severe issue during mining in deep-buried large-mining-height working faces.This study takes Zhaogu No.2 Coal Mine in Jiaozuo Coalfield,China,as the research background and carries out three f...Rib spalling is a highly severe issue during mining in deep-buried large-mining-height working faces.This study takes Zhaogu No.2 Coal Mine in Jiaozuo Coalfield,China,as the research background and carries out three focused works to address this problem.Firstly,field measurements were conducted to clarify rib spalling characteristics:the coal wall is dominated by shear failure,internal cracks are mainly distributed 3–6 m above the coal wall surface,and the maximum depth of crack development reaches 3 m.Secondly,Universal Distinct Element Code(UDEC)numerical simulation software was used to build a rib spalling model,with the Trigon model adopted to divide the coal wall into blocks.Analysis of four key factors shows that increased buried depth and mining height significantly raise the total length of coal wall internal cracks,increasing rib spalling risk,while higher coal body strength and support strength effectively alleviate this phenomenon.Finally,an orthogonal experiment was designed to quantitatively determine the influence degree of the four factors on rib spalling.Results show that coal body strength has the greatest impact,followed by support strength,mining height,and mining depth in order of influence.This study provides valuable theoretical guidance for on-site prevention and control of coal wall rib spalling.展开更多
Highly accurate international height reference frames with long-term stability,global consistency,and homogeneity are crucial for monitoring sea level variations,understanding climate change,managing disasters,and sup...Highly accurate international height reference frames with long-term stability,global consistency,and homogeneity are crucial for monitoring sea level variations,understanding climate change,managing disasters,and supporting other applications that benefit scientific research and societal well-being.Currently,there are over 100 local height reference systems worldwide.Unifying these systems is a pivotal step toward constructing international height reference frames.The method introduced in this study-the gravity frequency shift via Satellite Frequency Signal Transfer(SFST)-represents a groundbreaking relativistic geodetic approach,demonstrating its potential to surpass the constraints of conventional techniques.The advent of high-precision optical atomic clocks(OAC)with an accuracy level of 1×10^(-18) has facilitated this method's implementation.The International Association of Geodesy(IAG)has established the International Height Reference System(IHRS)and its practical realization,the International Height Reference Frame(IHRF).Our study focuses on two neighbouring height systems:the China Height System(CHS)and the Nepal Height System(NHS),separated by the Himalayas and the Xizang plateau.We aim to unify these two systems by determining the geopotential and orthometric height differences between their respective height datum stations:the Qingdao Height Datum Station(QHDS)and the Madar Height Datum Station(MHDS)using a simulation experiment with the method mentioned above.Using an OAC with an accuracy of 1×10^(-18),we identified a geopotential difference of-8.348±0.464 m^(2)s^(-2) and an orthometric height difference of 0.786±0.047 m between QHDS and MHDS.These results suggest that the introduced method could unify any two height systems with fewcentimeter-level precision,emphasizing its significance in contributing to the construction of the IHRS/IHRF with today's required precision.In summary,the SFST technique is a novel geodetic method that offers an alternative for height system unification,delivering centimeter-level precision,surpassing traditional methods,and supporting the development of the IHRF.展开更多
Timely identification and forecast of maize tasseling date(TD)are very important for agronomic management,yield prediction,and crop phenotype estimation.Remote sensing-based phenology monitoring has mostly relied on t...Timely identification and forecast of maize tasseling date(TD)are very important for agronomic management,yield prediction,and crop phenotype estimation.Remote sensing-based phenology monitoring has mostly relied on time series spectral index data of the complete growth season.A recent development in maize phenology detection research is to use canopy height(CH)data instead of spectral indices,but its robustness in multiple treatments and stages has not been confirmed.Meanwhile,because data of a complete growth season are needed,the need for timely in-season TD identification remains unmet.This study proposed an approach to timely identify and forecast the maize TD.We obtained RGB and light detection and ranging(Li DAR)data using the unmanned aerial vehicle platform over plots of different maize varieties under multiple treatments.After CH estimation,the feature points(inflection point)from the Logistic curve of the CH time series were extracted as TD.We examined the impact of various independent variables(day of year vs.accumulated growing degree days(AGDD)),sensors(RGB and Li DAR),time series denoise methods,different feature points,and temporal resolution on TD identification.Lastly,we used early CH time series data to predict height growth and further forecast TD.The results showed that using the 99th percentile of plot scale digital surface model and the minimum digital terrain model from Li DAR to estimate maize CH was the most stable across treatments and stages(R~2:0.928 to0.943).For TD identification,the best performance was achieved by using Li DAR data with AGDD as the independent variable,combined with the knee point method,resulting in RMSE of 2.95 d.The high accuracy was maintained at temporal resolutions as coarse as 14 d.TD forecast got more accurate as the CH time series extended.The optimal timing for forecasting TD was when the CH exceeded half of its maximum.Using only Li DAR CH data below 1.6 m and empirical growth rate estimates,the forecasted TD showed an RMSE of 3.90 d.In conclusion,this study exploited the growth characteristics of maize height to provide a practical approach for the timely identification and forecast of maize TD.展开更多
This article analyzes the design of a variable-height simply supported steel truss bridge based on an actual project.It includes its basic situation,introduction to variable-height simply supported steel truss bridges...This article analyzes the design of a variable-height simply supported steel truss bridge based on an actual project.It includes its basic situation,introduction to variable-height simply supported steel truss bridges,key design points of such bridges,and finite element analysis of the design effect.The analysis shows that for such bridges,reasonable main structure design and node design are the keys to determining the overall design idea,and through the reasonable application of the finite element analysis method,the design effect can be scientifically determined,providing a reference for the subsequent structural design of such projects.展开更多
基金supported by the Natural Science Foundation of Shandong Province,China(ZR2022MC045)the National Natural Science Foundation of China(32001584,32201876)+2 种基金the Major Science and Technology Program of Xinjiang Uygur Autonomous Region,China(2022A02008-3)the Breeding Project from Department of Science&Technology of Shandong Province,China(2022LZGC007)the Agricultural Scientific and the Technological Innovation Project of Shandong Academy of Agricultural Sciences,China(CXGC2023A06,CXGC2023A39 and CXGC2023A46),and the Major Scientific and Technological Achievements Cultivation Program of Shandong Academy of Agricultural Sciences,China(CXGC2025E02)。
文摘Plant height(PH),primary lateral branch length(PBL),and branch number(BN)are architectural components impacting peanut pod yield,biomass production,and adaptivity to mechanical harvesting.In this study,a recombinant inbred population consisting of 181 individual lines was used to determine genetic controls of PH,PBL,and BN across three environments.Phenotypic data collected from the population demonstrated continuous distributions and transgressive segregation patterns.Broad-sense heritability of PH,PBL,and BN was found to be 0.87,0.88,and 0.92,respectively.Unconditional individual environmental analysis revealed 35 additive QTLs with phenotypic variation explained(PVE)ranging from 4.57 to 21.68%.A two-round meta-analysis resulted in 24consensus and 19 unique QTLs.Five unique QTLs exhibited pleiotropic effects and their genetic bases(pleiotropy or tight linkage)were evaluated.A joint analysis was performed to estimate the QTL by environment interaction(QEI)effects on PH,PBL,and BN,collectively explaining phenotypic variations of 10.80,11.02,and 7.89%,respectively.We identified 3 major and stable QTL regions(uq9-3,uq10-2,and uq16-1)on chromosomes 9,10,and 16,spanning1.43-1.53 Mb genomic regions.Candidate genes involved in phytohormones biosynthesis,signaling,and cell wall development were proposed to regulate these morphological traits.These results provide valuable information for further genetic studies and the development of molecular markers applicable to peanut architecture improvement.
基金funding from Anhui Engineering Laboratory of Explosive Materials and Technology Foundation(No.AHBP2022B-04)Natural Science Research Project of Anhui Educational Committee(No.2023AH051221)+1 种基金Anhui Provincial Natural Science Foundation(No.2208085QA26)Scientific Research Foundation for High-level Talents of Anhui University of Science and Technology for the project related to this work.
文摘Accurately forecasting the triple point(TP)path is essential for analyzing blast loads and assessing the destructive effectiveness of the height of burst explosion.Empirical models that describe the TP path under normal temperature and pressure environments are commonly employed;however,in certain configurations,such as at high-altitudes(HAs),the environment may involve low temperature and pressure conditions.The present study develops a theoretical prediction model for the TP path under reduced pressure and temperature conditions,utilizing the image bursts method,reflected polar analysis,and dimensional analysis.The model's accuracy is evaluated through numerical simulations and experimental data.Results indicate that the prediction model effectively evaluates the TP path under diminished temperature and pressure conditions,with most predictions falling within a±15%deviation.It was found that the TP height increases with altitude.As the altitude rises from 0 m to 10,000 m,the average TP height increases by 61.7%,87.9%,109.0%,and 134.3%for the scaled height of burst of 1.5 m,2.0 m,2.5 m,and 3.0 m,respectively.Moreover,the variation in TP height under HA environments closely mirrors that observed under corresponding reduced pressure conditions.In HA environments,only the effect of low-pressure conditions on the TP path needs to be considered,as the environmental lowtemperature has a minimal effect.
基金The funding of this study was of the 2021 Shandong Province Higher Education“Young Innovative Talent Introduction and Training Program”(Public Health Safety Risk Assessment and Response Innovation Team)the annual education and teaching reform and research project at the school level of Shandong Second Medical University(No.2023YBD006)+1 种基金the Public Health Standards Research and Development Project of the National Disease Control and Prevention Bureau(No.233007)the Public Health Standards Revision and Supervision Support Project of the National Disease Control and Prevention Bureau (No.242401).
文摘Objective To assess health equity in the Yangtze River region to improve understanding of the correlation between hand, foot, and mouth disease(HFMD) and socioeconomic factors.Methods From 2014–2016, data on HFMD incidence, population statistics, economic indicators, and meteorology from 26 cities along the Yangtze River were analyzed. A multi-city random-effects metaanalysis was performed to study the relationship between temperature and HFMD transmission, and health equity was assessed with respect to socio-economic impact.Results Over the study period, 919,458 HFMD cases were reported, with Shanghai(162,303) having the highest incidence and Tongling(5,513) having the lowest. Males were more commonly affected(male-to-female ratio, 1.49:1). The exposure-response relationship had an M-shaped curve, with two HFMD peaks occurring at 4 ℃ and 26 ℃. The relative risk had two peaks at 1.30 ℃(1.834, 95% CI:1.204–2.794) and 31.4 ℃(1.143, 95% CI: 0.901–1.451), forming an M shape, with the first peak higher than the second. The most significant impact of temperature on HFMD was observed between –2 ℃ and18.1 ℃. The concentration index(0.2463) indicated moderate concentration differences, whereas the Theil index(0.0418) showed low inequality in distribution.Conclusion The incidence of HFMD varied across cities, particularly with changes in temperature.Economically prosperous areas showed higher risks, indicating disparities. Targeted interventions in these areas are crucial for mitigating the risk of HFMD.
文摘The article presents a methodology for transitioning to the Amsterdam height system based on utilizing global and regional geoid/quasi-geoid models.The study was conducted for the Polish-Ukrainian cross-border sector and expanded to the entire territory of Poland and Ukraine.The input data comprised two regional and five global geoid/quasi-geoid models.The initial data analysis was conducted for all models relative to GNSS/leveling data in the Baltic height system.The secondary analysis was performed relative to the combined PL-quasi-geoid2021 model and the gravimetric EGG2015 model.Based on the analysis results,a methodology for optimizing heights between regional and global geoid/quasi-geoid models was developed,including the following stages:calculation of conditional global and regional geoid/quasi-geoid heights,calculation of approximately predicted height differences between the conditional regional and global geoid/quasi-geoid,implementation of the refinement(correction)of approximate heights at the regional model,optimization of approximate heights at the regional model,and calculation of a regional combined model in the Amsterdam height system.The developed methodology enables the integration of regional and global geoid/quasi-geoid models into the Amsterdam height system with an accuracy of 1-2 cm by optimizing their heights.The advantage of this methodology is that it requires only a minimal amount of GNSS/leveling data to establish connections between different height systems.
文摘Background: Puffy hand syndrome (PHS) is a rare complication primarily associated with intravenous drug use (IVDU), characterized by chronic swelling and fibrosis of the hands due to lymphatic damage. Concurrent pulmonary complications, such as pneumonia and pneumothorax, significantly contribute to increased morbidity in this population. Case Presentation: We report the case of a 28-year-old female who injects drugs, and presents with fever, bilateral hand edema, and respiratory symptoms. Clinical evaluation revealed erythema and edema of both hands, elevated inflammatory markers, and a left lower lobe infiltration that progressed to pneumothorax. A diagnosis of PHS and left lower lobe pneumonia complicated by pneumothorax was established. Management and Outcomes: The patient was treated with broad-spectrum antibiotics, including ceftriaxone, levofloxacin, dexamethasone, and oxygen supplementation, as well as antipyretics. She demonstrated partial clinical improvement and was referred to another hospital’s thoracic surgery department for specialized care. Conclusions: This case underscores the importance of early recognition and multidisciplinary management of rare but serious complications in IVDU patients. Further research is necessary to elucidate the interplay between lymphatic dysfunction and pulmonary pathophysiology in this demographic.
文摘Objectives: To propose the improvements measures by analysing the influencing factors of hand hygiene (HH) compliance by observing the behaviour of health care workers (HCWs). Method: The observational study was conducted at a public tertiary hospital in Zhejiang, China, from September 2018 to March 2021. A total of 58 HH observers were trained to conduct a direct observation on the HH behaviors of personnel in the hospital amongst the health care workers. We have observed over 9000 hand hygiene opportunities. The collected data were classified according to time factors, department parameters, and profession conduct of the observed. Hand hygiene (HH) compliance rates were calculated for each category, and a chi-square test was used to analyze differences of the HH compliance rates. Furthermore, binary logistic regression was used for multivariate analysis in each of the hand hygiene moments. Results: The HH compliance rates of HCWs were statistically different before and after the Corona Virus Disease 2019 (COVID-19) pandemic, in the morning and the afternoon, this was observed per parameters stated into objectives on weekdays vs non weekdays. And we found that HH compliance rates drop off a cliff from weekdays to non-weekdays. Conclusions: COVID-19, departments, professions, and weekdays were all factors that influence HH compliance amongst HCWs. However, the influencing factors were not all present in every HH behavior, and had different intensities of influence on HH compliance amongst the HCWs. These findings provide some reference for us to propose improvement measures.
基金supported by research fund from Chosun University,2024.
文摘The rapid evolution of virtual reality(VR)and augmented reality(AR)technologies has significantly transformed human-computer interaction,with applications spanning entertainment,education,healthcare,industry,and remote collaboration.A central challenge in these immersive systems lies in enabling intuitive,efficient,and natural interactions.Hand gesture recognition offers a compelling solution by leveraging the expressiveness of human hands to facilitate seamless control without relying on traditional input devices such as controllers or keyboards,which can limit immersion.However,achieving robust gesture recognition requires overcoming challenges related to accurate hand tracking,complex environmental conditions,and minimizing system latency.This study proposes an artificial intelligence(AI)-driven framework for recognizing both static and dynamic hand gestures in VR and AR environments using skeleton-based tracking compliant with the OpenXR standard.Our approach employs a lightweight neural network architecture capable of real-time classification within approximately 1.3mswhilemaintaining average accuracy of 95%.We also introduce a novel dataset generation method to support training robust models and demonstrate consistent classification of diverse gestures across widespread commercial VR devices.This work represents one of the first studies to implement and validate dynamic hand gesture recognition in real time using standardized VR hardware,laying the groundwork for more immersive,accessible,and user-friendly interaction systems.By advancing AI-driven gesture interfaces,this research has the potential to broaden the adoption of VR and AR across diverse domains and enhance the overall user experience.
基金supported by the National Key Research and Development Program of China(Grant No.2021YFC2802501)the National Natural Science Foundation of China(Grant Nos.42175154 and 42305084)+1 种基金the Hunan Provincial Natural Science Foundation of China(Grant No.2024JJ2058)Research Project of the National University of Defense Technology(Grant No.202401-YJRC-XX-030)。
文摘Antarctic clouds and their vertical structures play a significant role in influencing the regional radiation budget and ice mass balance;however,substantial uncertainties persist.Continuous monitoring and research are essential for enhancing our understanding of these clouds.This study presents an analysis of cloud occurrence frequency and cloud-base heights(CBHs)at Zhongshan Station in East Antarctica for the first time,utilizing data from a C12 ceilometer covering the period from January 2022 to December 2023.The findings indicate that low clouds dominate at Zhongshan Station,with an average cloud occurrence frequency of 75%.Both the cloud occurrence frequency and CBH distribution exhibit distinct seasonal variations.Specifically,the cloud occurrence frequency during winter is higher than that observed in summer,while winter clouds can develop to greater heights.Over the Southern Ocean,the cloud occurrence frequency during summer surpasses that at Zhongshan Station,with clouds featuring lower CBHs and larger extinction coefficients.Furthermore,it is noteworthy that CBHs derived from the ceilometer are basically consistent with those obtained from radiosondes.Importantly,ERA5 demonstrates commendable performance in retrieving CBHs at Zhongshan Station when compared with ceilometer measurements.
基金supported by European Union's Horizon 2020 research and innovation programme under the Marie Sklodowska Curie grant agreement(No.101028929)BJFis supported by National Heart Foundation of Australia Postdoc-toral Fellowship(No.106588)+1 种基金BG is supported by Australian Government Research Training Program ScholarshipDPLis supported by Clive Kearon Award,McMaster University.Additional funding information can be found in Supplemen-tary Funding.
文摘Background:Muscular strength is a powerful marker of current health status and robust predictor of age-related disease and disability.Handgrip strength(HGS)using isometric dynamometry is a convenient,feasible,and widely used method of assessing muscular strength among people of all ages.While adult HGS norms have been published for many countries,no study has yet synthesized available data to produce international norms.The objective of this study was to generate international sex-and age-specific norms for absolute and body size-normalized HGS across the adult lifespan.Methods:Systematic searches were conducted in 6 databases/web search engines(MEDLINE,SPORTDiscus,Embase,Web of Science,CINAHL,and Google Scholar)up to December 1,2023.We included full-text peer-reviewed observational studies that reported normative HGS data for adults aged ≥20 years by sex and age.Pseudo data were generated using Monte Carlo simulation following harmonization for methodo-logical variation.Population-weighted Generalized Additive Models for Location,Scale,and Shape were used to develop sex-and age-specific norms for absolute HGS(kg)and HGS normalized by height(Ht,m)squared(i.e.,HGS/Ht^(2)in kg/m^(2)).Norms were tabulated as percentile values(5th to 95th)and visualized as smoothed percentile curves.Results:We included data from 100 unique observational studies representing 2,405,863 adults(51.9%female)aged 20 to 100+years from 69 countries and regions tested from the year 2000 onward.On average,absolute and normalized HGS values negligibly improved throughout early adulthood,peaked from age 3039 years(at 49.7 kg(males)and 29.7 kg(females)for absolute HGS or 16.3 kg/m^(2)(males)and 11.3 kg/m^(2)(females)for HGS/Ht^(2)),and declined afterwards.The age-related decline in HGS accelerated from middle to late adulthood and was slightly larger for males than for females during middle adulthood.Conclusion:This study provides the world’s largest and most geographically comprehensive international norms for adult HGS by sex and age.These norms have utility for global peer-comparisons,health screening,and surveillance.
基金supported by a Henan Province Science and Technology Research Project(No.252102311033)the National Key Research and Development Program(No.2022YFC2009600 and No.2022YFC2009601).
文摘Objective:While albumin and the weight-standardized hand grip strength(HGS/W)serve as valuable prognostic indicators for cancer patients,their correlation with the prognosis in frail cancer patients remains inadequately explored.This study aimed to investigate the prognostic importance of the albumin level and HGS/W in cancer patients with frailty and to further investigate their combined prognostic value.Moreover,this comprehensive evaluation aimed to facilitate timely intervention and treatment for frail patients.Methods:The research enrolled 5,794 cancer patients identified with frailty from a multicenter research database.The diagnosis of frailty was based on the FRAIL scale.An Albumin-HGS/W score was constructed by combining the albumin and HGS/W values.Cox proportional hazard regression was utilized to examine the association between the albumin level and HGS/W and patient outcomes.Results:Among these patients,2,543 were females and 3,251 were males,with a median age of 60.0 years.Optimal stratification based on patient survival revealed the ideal threshold for HGS/W to be 0.48 for males and 0.39 for females,and for albumin to be 38 for both sexes.The fully adjusted model revealed that higher Albumin-HGS/W scores were correlated with a poorer patient prognosis.Notably,an Albumin-HGS/W score of 2 was associated with a higher risk of mortality compared with a score of 0 in the total population(HR:1.813,95%CI:1.580-2.080,P<0.001).Conclusions:Low albumin or HGS/W values are associated with low survival in cancer patients with frailty.Elevated Albumin-HGS/W scores were linked to decreased survival rates in cancer patients with frailty.
文摘This article delves Chern's conjecture for hypersurfaces with constant second fundamental form squared length S in the spherical space.At present,determining whether the third gap point of S is 2n remains unsolved yet.First,we investigate the height functions and their properties of the position vector and normal vector in natural coordinate vectors,and then prove the existence of a Simons-type integral formula on the hypersurface that simultaneously includes the first,second,and third gap point terms of S.These results can provide new avenues of thought and methods for solving Chern's conjecture.
文摘Hand function impairment after stroke has become a key and difficult issue in clinical rehabilitation due to complex neural innervation and a long recovery cycle.Biofeedback technology combined with occupational therapy can make up for the limitations of single therapy and provide a new solution for hand function rehabilitation after stroke.This paper systematically sorts out the theoretical basis and clinical research progress of biofeedback technology combined with occupational therapy in hand function rehabilitation after stroke,and looks forward to the future development direction,aiming to provide reference for clinical rehabilitation practice and scientific research.
文摘The mining height of a coal seam is a critical factor influencing the detachment,collapse,and formation of the collapse angle of the strata during strata movement.To clarify the mechanism by which mining height affects strata movement characteristics,a physical model experiment was conducted based on the geological conditions of the Panel 122104 in Caojiatan Coal Mine in Shaanxi.The experiment examined strata movement at mining heights of 1 m and 10 m,identifying differences in detachment,collapse behavior,and collapse angles under these two conditions.The results indicate the following:Delamination range directly governs collapse patterns,with higher stress concentration accelerating delamination initiation and expanding affected zones.1 m mining height exhibits a“superposed fixed beam”structure with lower strength compared to the“fixed beam+cantilever beam”configuration under 10 m height.A model estimating collapse step shows 9.13%average error.Strata structure dictates collapse angle mechanisms:Pseudo-plastic deformation under 1 m height determines collapse angle through vertical tensile stress boundaries,whereas 10 m height exhibits brittle fracture behavior with collapse angles approximating fracture angles.Periodic collapse volume above working face directly correlates with mine pressure intensity and is positively correlated with the caving step distance,collapse angle,and caving range.These parameters show higher values under 10 m mining height,resulting in more pronounced mine pressure manifestations compared to 1 m conditions.
基金Supported by the National Natural Science Foundation of China(Grant No.52405530)the Beijing Natural Science Foundation(Grant No.L243009)the Beijing Institute of Technology Research Fund Program for Young Scholars。
文摘Recent years have witnessed unprecedented development in humanoid robotics,with dexterous hand grasping emerging as a focal research area across industrial and academic sectors.To track the state-of-the-art dexterous hand grasp,a review of dexterous hand grasp based on bibliometric analysis is executed.The related studies on dexterous hand grasp are collected from the Web of Science for analysis,where the publication details and cooperation situations from the perspectives of country,institute,etc.are discussed.The keywords cluster is adopted to find the hot research topic of dexterous hand grasp.The development trend of dexterous hand grasp is explored based on the top 25 keywords with the strongest citation bursts.The review findings indicate that precision control via multimodal fusion,autonomous task understanding and intelligent decision,and in-hand dexterous manipulation are top three hotspots in future.
文摘As Thailand and China mark the 50th anniversary of their diplomatic ties this year,most headlines will naturally focus on trade deals,railways,and strategic partnerships.But tucked behind the golden spires of Bangkok’s Wat Po temple lies a quieter,gentler form of diplomacy—one that happens through kneading hands,respectful bows,and an ancient art passed down across generations.At the Wat Po Thai Traditional Medical School,headmaster Serat Tangtrongchitr sees Thai massage not only as a healing craft,but as a cultural bridge—one that connects people across borders,languages,and belief systems.“We don’t just teach massage,”Serat said,his voice calm but assured.“We teach a way of life.And when people from other cultures learn this with us—Chinese students included—they come to understand not just the techniques,but the heart of Thai culture.”
基金supported by the National Key Research and Development Program of China(No.2023YFC2907501)the National Natural Science Foundation of China(No.52374106)+1 种基金the China Postdoctoral Science Foundation(Grant no.2024T171006)the National Natural Science Foundation of China(Grant no.52204163).
文摘Rib spalling is a highly severe issue during mining in deep-buried large-mining-height working faces.This study takes Zhaogu No.2 Coal Mine in Jiaozuo Coalfield,China,as the research background and carries out three focused works to address this problem.Firstly,field measurements were conducted to clarify rib spalling characteristics:the coal wall is dominated by shear failure,internal cracks are mainly distributed 3–6 m above the coal wall surface,and the maximum depth of crack development reaches 3 m.Secondly,Universal Distinct Element Code(UDEC)numerical simulation software was used to build a rib spalling model,with the Trigon model adopted to divide the coal wall into blocks.Analysis of four key factors shows that increased buried depth and mining height significantly raise the total length of coal wall internal cracks,increasing rib spalling risk,while higher coal body strength and support strength effectively alleviate this phenomenon.Finally,an orthogonal experiment was designed to quantitatively determine the influence degree of the four factors on rib spalling.Results show that coal body strength has the greatest impact,followed by support strength,mining height,and mining depth in order of influence.This study provides valuable theoretical guidance for on-site prevention and control of coal wall rib spalling.
基金the National Natural Science Foundation of China(NSFC)(Grant Nos.42030105,42274011,42074019,41974034,42204006)。
文摘Highly accurate international height reference frames with long-term stability,global consistency,and homogeneity are crucial for monitoring sea level variations,understanding climate change,managing disasters,and supporting other applications that benefit scientific research and societal well-being.Currently,there are over 100 local height reference systems worldwide.Unifying these systems is a pivotal step toward constructing international height reference frames.The method introduced in this study-the gravity frequency shift via Satellite Frequency Signal Transfer(SFST)-represents a groundbreaking relativistic geodetic approach,demonstrating its potential to surpass the constraints of conventional techniques.The advent of high-precision optical atomic clocks(OAC)with an accuracy level of 1×10^(-18) has facilitated this method's implementation.The International Association of Geodesy(IAG)has established the International Height Reference System(IHRS)and its practical realization,the International Height Reference Frame(IHRF).Our study focuses on two neighbouring height systems:the China Height System(CHS)and the Nepal Height System(NHS),separated by the Himalayas and the Xizang plateau.We aim to unify these two systems by determining the geopotential and orthometric height differences between their respective height datum stations:the Qingdao Height Datum Station(QHDS)and the Madar Height Datum Station(MHDS)using a simulation experiment with the method mentioned above.Using an OAC with an accuracy of 1×10^(-18),we identified a geopotential difference of-8.348±0.464 m^(2)s^(-2) and an orthometric height difference of 0.786±0.047 m between QHDS and MHDS.These results suggest that the introduced method could unify any two height systems with fewcentimeter-level precision,emphasizing its significance in contributing to the construction of the IHRS/IHRF with today's required precision.In summary,the SFST technique is a novel geodetic method that offers an alternative for height system unification,delivering centimeter-level precision,surpassing traditional methods,and supporting the development of the IHRF.
基金supported by National Science and Technology Major Project(2022ZD0115701)Nanfan Special Project,CAAS(YBXM2305,YBXM2401,YBXM2402,PTXM2402)+1 种基金National Natural Science Foundation of China(42071426,42301427)the Agricultural Science and Technology Innovation Program of the Chinese Academy of Agricultural Sciences。
文摘Timely identification and forecast of maize tasseling date(TD)are very important for agronomic management,yield prediction,and crop phenotype estimation.Remote sensing-based phenology monitoring has mostly relied on time series spectral index data of the complete growth season.A recent development in maize phenology detection research is to use canopy height(CH)data instead of spectral indices,but its robustness in multiple treatments and stages has not been confirmed.Meanwhile,because data of a complete growth season are needed,the need for timely in-season TD identification remains unmet.This study proposed an approach to timely identify and forecast the maize TD.We obtained RGB and light detection and ranging(Li DAR)data using the unmanned aerial vehicle platform over plots of different maize varieties under multiple treatments.After CH estimation,the feature points(inflection point)from the Logistic curve of the CH time series were extracted as TD.We examined the impact of various independent variables(day of year vs.accumulated growing degree days(AGDD)),sensors(RGB and Li DAR),time series denoise methods,different feature points,and temporal resolution on TD identification.Lastly,we used early CH time series data to predict height growth and further forecast TD.The results showed that using the 99th percentile of plot scale digital surface model and the minimum digital terrain model from Li DAR to estimate maize CH was the most stable across treatments and stages(R~2:0.928 to0.943).For TD identification,the best performance was achieved by using Li DAR data with AGDD as the independent variable,combined with the knee point method,resulting in RMSE of 2.95 d.The high accuracy was maintained at temporal resolutions as coarse as 14 d.TD forecast got more accurate as the CH time series extended.The optimal timing for forecasting TD was when the CH exceeded half of its maximum.Using only Li DAR CH data below 1.6 m and empirical growth rate estimates,the forecasted TD showed an RMSE of 3.90 d.In conclusion,this study exploited the growth characteristics of maize height to provide a practical approach for the timely identification and forecast of maize TD.
文摘This article analyzes the design of a variable-height simply supported steel truss bridge based on an actual project.It includes its basic situation,introduction to variable-height simply supported steel truss bridges,key design points of such bridges,and finite element analysis of the design effect.The analysis shows that for such bridges,reasonable main structure design and node design are the keys to determining the overall design idea,and through the reasonable application of the finite element analysis method,the design effect can be scientifically determined,providing a reference for the subsequent structural design of such projects.
