Echinococcoses are parasitic diseases of major public health importance globally.Human infection results in chronic disease with poor prognosis and serious medical,social and economic consequences for vulnerable popul...Echinococcoses are parasitic diseases of major public health importance globally.Human infection results in chronic disease with poor prognosis and serious medical,social and economic consequences for vulnerable populations.According to recent estimates,the geographical distribution of Echinococcus spp.infections is expanding and becoming an emerging and re-emerging problem in several regions of the world.Echinococcosis endemicity is geographically heterogeneous and over time it may be affected by global environmental change.Therefore,landscape epidemiology offers a unique opportunity to quantify and predict the ecological risk of infection at multiple spatial and temporal scales.Here,we review the most relevant environmental sources of spatial variation in human echinococcosis risk,and describe the potential applications of landscape epidemiological studies to characterise the current patterns of parasite transmission across natural and human-altered landscapes.We advocate future work promoting the use of this approach as a support tool for decision-making that facilitates the design,implementation and monitoring of spatially targeted interventions to reduce the burden of human echinococcoses in disease-endemic areas.展开更多
Background:Schistosomiasis is a water-borne disease caused by trematode worms belonging to genus Schistosoma,which is prevalent most of the developing world.Transmission of the disease is usually associated with multi...Background:Schistosomiasis is a water-borne disease caused by trematode worms belonging to genus Schistosoma,which is prevalent most of the developing world.Transmission of the disease is usually associated with multiple biological characteristics and social factors but also factors can play a role.Few studies have assessed the exact and interactive influence of each factor promoting schistosomiasis transmission.Methods:We used a series of different detectors(i.e.,specific detector,risk detector,ecological detector and interaction detector)to evaluate separate and interactive effects of the environmental factors on schistosomiasis prevalence.Specifically,(i)specific detector quantifies the impact of a risk factor on an observed spatial disease pattern,which were ranked statistically by a value of Power of Determinate(PD)calculation;(ii)risk detector detects high risk areas of a disease on the condition that the study area is stratified by a potential risk factor;(iii)ecological detector explores whether a risk factor is more significant than another in controlling the spatial pattern of a disease;(iv)interaction detector probes whether two risk factors when taken together weaken or enhance one another,or whether they are independent in developing a disease.Infection data of schistosomiasis based on conventional surveys were obtained at the county level from the health authorities in Anhui Province,China and used in combination with information from Chinese weather stations and internationally available environmental data.Results:The specific detector identified various factors of potential importance as follows:Proximity to Yangtze River(0.322)>Land cover(0.285)>sunshine hours(0.256)>population density(0.109)>altitude(0.090)>the normalized different vegetation index(NDVI)(0.077)>land surface temperature at daytime(LST_(day))(0.007).The risk detector indicated that areas of schistosomiasis high risk were located within a buffer distance of 50 km from Yangtze River.The ecological detector disclosed that the factors展开更多
During a terrorist attack on a supermarket,the use of emergency exits is essential for effective evacuation and saving lives.However,people tend to ignore emergency situations.This behavior can lengthen evacuation tim...During a terrorist attack on a supermarket,the use of emergency exits is essential for effective evacuation and saving lives.However,people tend to ignore emergency situations.This behavior can lengthen evacuation times,endanger individuals,and even prove fatal.In this context,we conducted a series of experiments to explore the links between cognition and the dynamics of human capabilities in a complex and changing environment.In a series of behavioral experiments and computer simulations,we found that active guidance by green flashing lights at emergency exits impacts the behavior of individuals in an emergency evacuation situation in a supermarket;this tested our hypothesis that changing the environment in turn changes the evacuation behavior of individuals.We also show that environmental modification can help in decision-making in an emergency situation.Furthermore,the results of computer simulations support a possible modeling of the influence of affordances on the evacuation behavior of agents in a complexvirtual environment.展开更多
The ZDPS-1A pico-satellites are the first satellites in China within the 1-10 kg mass range that are successfully operated on orbit. Unlike common pico-satellites, they are designed to be "larger but stronger" with ...The ZDPS-1A pico-satellites are the first satellites in China within the 1-10 kg mass range that are successfully operated on orbit. Unlike common pico-satellites, they are designed to be "larger but stronger" with more powerful platforms and unique payloads so as to bear a better promise for real applications. Through their space flight mission, the functionality and perform- ance of the two flight models are tested on orbit and validated to be mostly normal and in consistency with design and ground tests with only several inconforming occasions. Moreover, they have worked properly on orbit for one year so far, well exceed- ing their life expectancy of three months. Therefore, the space flight mission has reached all its goals, and verified that the design concept and the engineering process of the pico-satellites are sufficient in allowing them the desired functionality and perform- ance in, and the adaption to the launch procedure and the low-Earth orbit space environment. In the foreseeable future, the plat- form together with the design concept and the engineering process of the pico-satellites are expected to be applied to more com- plicated real space applications.展开更多
针对一类多输入多输出系统进行辨识,以"A simulation of the western basin of Lake Erie"为例,通过分析河流湖泊的水质特征,针对伊利湖湖泊水质建立数学模型,由于该环境系统为多输入多输出系统,文章采用了一种改进的BP神经...针对一类多输入多输出系统进行辨识,以"A simulation of the western basin of Lake Erie"为例,通过分析河流湖泊的水质特征,针对伊利湖湖泊水质建立数学模型,由于该环境系统为多输入多输出系统,文章采用了一种改进的BP神经网络算法,利用Matlab神经网络工具箱进行数据分析,绘出实际输出与模型输出的曲线以分析相关情况,检验建立的模型对于系统的辨识水平,给出传统BP网络和改进BP网络对该系统辨识的结果进行分析对比.文章还对不同噪声层次下的数据进行分析比较,并研究白噪声对于人工神经网络模型的影响.展开更多
With a population of 1.4 billion in China and a huge daily output of kitchen waste,intelligent treatment of kitchen waste is imperative.This article elaborates on the design and implementation of an intelligent monito...With a population of 1.4 billion in China and a huge daily output of kitchen waste,intelligent treatment of kitchen waste is imperative.This article elaborates on the design and implementation of an intelligent monitoring and early warning system from five aspects:system architecture design,hardware equipment selection and configuration,data collection and processing flow,early warning algorithm and model development,and system integration and testing verification.It also points out the advantages of the intelligent monitoring and early warning system in kitchen waste treatment.展开更多
基金support by the National Health and Medical Research Council(NHMRC)of Australia(APP1009539).AMCR is a PhD Candidate supported by a Postgraduate Award from The Australian National UniversityACAC is a NHMRC Career Development Fellow+3 种基金DPM is a NHMRC Senior Principal Research FellowDJG is an Australian Research Council Fellow(DECRA)TSB is a Senior Research FellowRJSM is funded by a Postdoctoral Research Fellowship from the University of Queensland(41795457).
文摘Echinococcoses are parasitic diseases of major public health importance globally.Human infection results in chronic disease with poor prognosis and serious medical,social and economic consequences for vulnerable populations.According to recent estimates,the geographical distribution of Echinococcus spp.infections is expanding and becoming an emerging and re-emerging problem in several regions of the world.Echinococcosis endemicity is geographically heterogeneous and over time it may be affected by global environmental change.Therefore,landscape epidemiology offers a unique opportunity to quantify and predict the ecological risk of infection at multiple spatial and temporal scales.Here,we review the most relevant environmental sources of spatial variation in human echinococcosis risk,and describe the potential applications of landscape epidemiological studies to characterise the current patterns of parasite transmission across natural and human-altered landscapes.We advocate future work promoting the use of this approach as a support tool for decision-making that facilitates the design,implementation and monitoring of spatially targeted interventions to reduce the burden of human echinococcoses in disease-endemic areas.
基金This research was supported by the National Natural Science Foundation of China(81673239)the National Science Fund for Distinguished Young Scholars(No.81325017)+1 种基金Chang Jiang Scholars Program(No.T2014089)the Fourth Round of Three-Year Public Health Action Plan of Shanghai,China(15GWZK0202,15GWZK0101).
文摘Background:Schistosomiasis is a water-borne disease caused by trematode worms belonging to genus Schistosoma,which is prevalent most of the developing world.Transmission of the disease is usually associated with multiple biological characteristics and social factors but also factors can play a role.Few studies have assessed the exact and interactive influence of each factor promoting schistosomiasis transmission.Methods:We used a series of different detectors(i.e.,specific detector,risk detector,ecological detector and interaction detector)to evaluate separate and interactive effects of the environmental factors on schistosomiasis prevalence.Specifically,(i)specific detector quantifies the impact of a risk factor on an observed spatial disease pattern,which were ranked statistically by a value of Power of Determinate(PD)calculation;(ii)risk detector detects high risk areas of a disease on the condition that the study area is stratified by a potential risk factor;(iii)ecological detector explores whether a risk factor is more significant than another in controlling the spatial pattern of a disease;(iv)interaction detector probes whether two risk factors when taken together weaken or enhance one another,or whether they are independent in developing a disease.Infection data of schistosomiasis based on conventional surveys were obtained at the county level from the health authorities in Anhui Province,China and used in combination with information from Chinese weather stations and internationally available environmental data.Results:The specific detector identified various factors of potential importance as follows:Proximity to Yangtze River(0.322)>Land cover(0.285)>sunshine hours(0.256)>population density(0.109)>altitude(0.090)>the normalized different vegetation index(NDVI)(0.077)>land surface temperature at daytime(LST_(day))(0.007).The risk detector indicated that areas of schistosomiasis high risk were located within a buffer distance of 50 km from Yangtze River.The ecological detector disclosed that the factors
文摘During a terrorist attack on a supermarket,the use of emergency exits is essential for effective evacuation and saving lives.However,people tend to ignore emergency situations.This behavior can lengthen evacuation times,endanger individuals,and even prove fatal.In this context,we conducted a series of experiments to explore the links between cognition and the dynamics of human capabilities in a complex and changing environment.In a series of behavioral experiments and computer simulations,we found that active guidance by green flashing lights at emergency exits impacts the behavior of individuals in an emergency evacuation situation in a supermarket;this tested our hypothesis that changing the environment in turn changes the evacuation behavior of individuals.We also show that environmental modification can help in decision-making in an emergency situation.Furthermore,the results of computer simulations support a possible modeling of the influence of affordances on the evacuation behavior of agents in a complexvirtual environment.
基金National Natural Science Foundation of China (60904090)
文摘The ZDPS-1A pico-satellites are the first satellites in China within the 1-10 kg mass range that are successfully operated on orbit. Unlike common pico-satellites, they are designed to be "larger but stronger" with more powerful platforms and unique payloads so as to bear a better promise for real applications. Through their space flight mission, the functionality and perform- ance of the two flight models are tested on orbit and validated to be mostly normal and in consistency with design and ground tests with only several inconforming occasions. Moreover, they have worked properly on orbit for one year so far, well exceed- ing their life expectancy of three months. Therefore, the space flight mission has reached all its goals, and verified that the design concept and the engineering process of the pico-satellites are sufficient in allowing them the desired functionality and perform- ance in, and the adaption to the launch procedure and the low-Earth orbit space environment. In the foreseeable future, the plat- form together with the design concept and the engineering process of the pico-satellites are expected to be applied to more com- plicated real space applications.
文摘针对一类多输入多输出系统进行辨识,以"A simulation of the western basin of Lake Erie"为例,通过分析河流湖泊的水质特征,针对伊利湖湖泊水质建立数学模型,由于该环境系统为多输入多输出系统,文章采用了一种改进的BP神经网络算法,利用Matlab神经网络工具箱进行数据分析,绘出实际输出与模型输出的曲线以分析相关情况,检验建立的模型对于系统的辨识水平,给出传统BP网络和改进BP网络对该系统辨识的结果进行分析对比.文章还对不同噪声层次下的数据进行分析比较,并研究白噪声对于人工神经网络模型的影响.
文摘With a population of 1.4 billion in China and a huge daily output of kitchen waste,intelligent treatment of kitchen waste is imperative.This article elaborates on the design and implementation of an intelligent monitoring and early warning system from five aspects:system architecture design,hardware equipment selection and configuration,data collection and processing flow,early warning algorithm and model development,and system integration and testing verification.It also points out the advantages of the intelligent monitoring and early warning system in kitchen waste treatment.
