One of the key challenges in ad-hoc networks is the resource discovery problem.How efciently&quickly the queried resource/object can be resolved in such a highly dynamic self-evolving network is the underlying que...One of the key challenges in ad-hoc networks is the resource discovery problem.How efciently&quickly the queried resource/object can be resolved in such a highly dynamic self-evolving network is the underlying question?Broadcasting is a basic technique in the Mobile Ad-hoc Networks(MANETs),and it refers to sending a packet from one node to every other node within the transmission range.Flooding is a type of broadcast where the received packet is retransmitted once by every node.The naive ooding technique oods the network with query messages,while the random walk scheme operates by contacting subsets of each node’s neighbors at every step,thereby restricting the search space.Many earlier works have mainly focused on the simulation-based analysis of ooding technique,and its variants,in a wired network scenario.Although,there have been some empirical studies in peer-to-peer(P2P)networks,the analytical results are still lacking,especially in the context of mobile P2P networks.In this article,we mathematically model different widely used existing search techniques,and compare with the proposed improved random walk method,a simple lightweight approach suitable for the non-DHT architecture.We provide analytical expressions to measure the performance of the different ooding-based search techniques,and our proposed technique.We analytically derive 3 relevant key performance measures,i.e.,the avg.number of steps needed to nd a resource,the probability of locating a resource,and the avg.number of messages generated during the entire search process.展开更多
The worldwide botanical and medicinal culture diversity are astonishing and constitute a Pierian spring for innovative drug R&D.Here,the latest awareness and the perspectives of pharmacophylogeny and pharmacophylo...The worldwide botanical and medicinal culture diversity are astonishing and constitute a Pierian spring for innovative drug R&D.Here,the latest awareness and the perspectives of pharmacophylogeny and pharmacophylogenomics,as well as their expanding utility in botanical drug R&D,are systematically summarized and highlighted.Chemotaxonomy is based on the fact that closely related plants contain the same or similar chemical profiles.Correspondingly,it is better to combine morphological characters,DNA markers and chemical markers in the inference of medicinal plant phylogeny.Medicinal plants within the same phylogenetic groups may have the same or similar therapeutic effects,thus forming the core of pharmacophylogeny.Here we systematically review and comment on the versatile applications of pharmacophylogeny in(1)looking for domestic resources of imported drugs,(2)expanding medicinal plant resources,(3)quality control,identification and expansion of herbal medicines,(4)predicting the chemical constituents or active ingredients of herbal medicine and assisting in the identification and determination of chemical constituents,(5)the search for new drugs sorting out,and(6)summarizing and improving herbal medicine experiences,etc.Such studies should be enhanced within the context of deeper investigations of molecular biology and genomics of traditional medicinal plants,phytometabolites and metabolomics,and ethnomedicine-based pharmacological activity,thus enabling the sustainable conservation and utilization of traditional medicinal resources.展开更多
In recent years,large-scale sensor arrays and the vast data-sets they produce worldwide are being utilized,shared,and published by a rising number of researchers on an ever-increasing frequency.An increasing number of...In recent years,large-scale sensor arrays and the vast data-sets they produce worldwide are being utilized,shared,and published by a rising number of researchers on an ever-increasing frequency.An increasing number of sensor web services are deployed to host and share the large volume of sensor data online.How to efficiently discover the sensor web resources and visualize different types of sensor data in a coherent environment becomes an important research question that is still not fully resolved.In this paper,we propose the Sensor Web PivotViewer system.By integrating the Geospatial Cyberinfrastructure for Environmental Sensing(GeoCENS)cyber infra-structure,the Microsoft PivotViewer,and the Microsoft BingMaps,the proposed system fills in the missing software components for users to easily and intuitively discover and utilize the worldwide sensor web resources.展开更多
We describe an effective resource location framework for ubiquitous computing environments populated by a diverse set of networks, devices, services and computational entities. Our framework provides context adaptatio...We describe an effective resource location framework for ubiquitous computing environments populated by a diverse set of networks, devices, services and computational entities. Our framework provides context adaptation with the aid of a middleware service to improve the quality of resource location. A resource location protocol suitable to each type of network locates resource effectively by means of dynamic reconfiguration to the current context. Our framework is also refined by support for interoperability between different types of resource location protocols occurring across a hybrid ubiquitous network. These characteristics also reduce the control overhead for resource location, saving resource, decreasing latency and permitting a considerable degree of scalability.展开更多
文摘One of the key challenges in ad-hoc networks is the resource discovery problem.How efciently&quickly the queried resource/object can be resolved in such a highly dynamic self-evolving network is the underlying question?Broadcasting is a basic technique in the Mobile Ad-hoc Networks(MANETs),and it refers to sending a packet from one node to every other node within the transmission range.Flooding is a type of broadcast where the received packet is retransmitted once by every node.The naive ooding technique oods the network with query messages,while the random walk scheme operates by contacting subsets of each node’s neighbors at every step,thereby restricting the search space.Many earlier works have mainly focused on the simulation-based analysis of ooding technique,and its variants,in a wired network scenario.Although,there have been some empirical studies in peer-to-peer(P2P)networks,the analytical results are still lacking,especially in the context of mobile P2P networks.In this article,we mathematically model different widely used existing search techniques,and compare with the proposed improved random walk method,a simple lightweight approach suitable for the non-DHT architecture.We provide analytical expressions to measure the performance of the different ooding-based search techniques,and our proposed technique.We analytically derive 3 relevant key performance measures,i.e.,the avg.number of steps needed to nd a resource,the probability of locating a resource,and the avg.number of messages generated during the entire search process.
基金supported by National Natural Science Foundation of China(No.41977048)Scientific Research Funds Project of Liaoning Education Department(JDL2019012)Natural Science Fund of Liaoning Province(20180550190)。
文摘The worldwide botanical and medicinal culture diversity are astonishing and constitute a Pierian spring for innovative drug R&D.Here,the latest awareness and the perspectives of pharmacophylogeny and pharmacophylogenomics,as well as their expanding utility in botanical drug R&D,are systematically summarized and highlighted.Chemotaxonomy is based on the fact that closely related plants contain the same or similar chemical profiles.Correspondingly,it is better to combine morphological characters,DNA markers and chemical markers in the inference of medicinal plant phylogeny.Medicinal plants within the same phylogenetic groups may have the same or similar therapeutic effects,thus forming the core of pharmacophylogeny.Here we systematically review and comment on the versatile applications of pharmacophylogeny in(1)looking for domestic resources of imported drugs,(2)expanding medicinal plant resources,(3)quality control,identification and expansion of herbal medicines,(4)predicting the chemical constituents or active ingredients of herbal medicine and assisting in the identification and determination of chemical constituents,(5)the search for new drugs sorting out,and(6)summarizing and improving herbal medicine experiences,etc.Such studies should be enhanced within the context of deeper investigations of molecular biology and genomics of traditional medicinal plants,phytometabolites and metabolomics,and ethnomedicine-based pharmacological activity,thus enabling the sustainable conservation and utilization of traditional medicinal resources.
文摘In recent years,large-scale sensor arrays and the vast data-sets they produce worldwide are being utilized,shared,and published by a rising number of researchers on an ever-increasing frequency.An increasing number of sensor web services are deployed to host and share the large volume of sensor data online.How to efficiently discover the sensor web resources and visualize different types of sensor data in a coherent environment becomes an important research question that is still not fully resolved.In this paper,we propose the Sensor Web PivotViewer system.By integrating the Geospatial Cyberinfrastructure for Environmental Sensing(GeoCENS)cyber infra-structure,the Microsoft PivotViewer,and the Microsoft BingMaps,the proposed system fills in the missing software components for users to easily and intuitively discover and utilize the worldwide sensor web resources.
文摘We describe an effective resource location framework for ubiquitous computing environments populated by a diverse set of networks, devices, services and computational entities. Our framework provides context adaptation with the aid of a middleware service to improve the quality of resource location. A resource location protocol suitable to each type of network locates resource effectively by means of dynamic reconfiguration to the current context. Our framework is also refined by support for interoperability between different types of resource location protocols occurring across a hybrid ubiquitous network. These characteristics also reduce the control overhead for resource location, saving resource, decreasing latency and permitting a considerable degree of scalability.