With the development of modem social productivity improvement, people' s material life is more and more abundant. But the social environment is getting more and more bad corresponding, haze, water pollution, dust and...With the development of modem social productivity improvement, people' s material life is more and more abundant. But the social environment is getting more and more bad corresponding, haze, water pollution, dust and so on make people' s life quality decreased greatly. Therefore, in the design community an advocate for environmental protection design trend has been emerged, namely green design trends. There is a lot of inspiration of the green design trend to the modem city public environment facilities. It advocates the ecological principles of green design are applied to the design of urban public facilities. Insist on a full process control principle, that is, in design of the urban public environment facilities fully consider the use environmental protection material, or reduce the use of raw materials, through the design make the limited resources to achieve the processing, use, scrap, recycling and reuse of a benign cycle, and reduce the impact on the environment from.展开更多
Where a virtual representation of the Earth must contain data values observed within the physical Earth system,data models are required that allow the integration of data across the silos of various Earth and environm...Where a virtual representation of the Earth must contain data values observed within the physical Earth system,data models are required that allow the integration of data across the silos of various Earth and environmental sciences domains.Creating a mapping between the well-defined terminologies of these silos is a stubborn problem.This paper presents a generalised ontology for use within Web 3.0 services,which builds on European Commission spatial data infrastructure models.The presented ontology acknowledges that there are many complexities to the description of environmental properties which can be observed within the physical Earth system.The ontology is shown to be flexible and robust enough to describe concepts drawn from a range of Earth science disciplines,including ecology,geochemistry,hydrology and oceanography.This paper also demonstrates the alignment and compatibility of the ontology with existing systems and shows applications in which the ontology may be deployed.展开更多
文摘With the development of modem social productivity improvement, people' s material life is more and more abundant. But the social environment is getting more and more bad corresponding, haze, water pollution, dust and so on make people' s life quality decreased greatly. Therefore, in the design community an advocate for environmental protection design trend has been emerged, namely green design trends. There is a lot of inspiration of the green design trend to the modem city public environment facilities. It advocates the ecological principles of green design are applied to the design of urban public facilities. Insist on a full process control principle, that is, in design of the urban public environment facilities fully consider the use environmental protection material, or reduce the use of raw materials, through the design make the limited resources to achieve the processing, use, scrap, recycling and reuse of a benign cycle, and reduce the impact on the environment from.
文摘Where a virtual representation of the Earth must contain data values observed within the physical Earth system,data models are required that allow the integration of data across the silos of various Earth and environmental sciences domains.Creating a mapping between the well-defined terminologies of these silos is a stubborn problem.This paper presents a generalised ontology for use within Web 3.0 services,which builds on European Commission spatial data infrastructure models.The presented ontology acknowledges that there are many complexities to the description of environmental properties which can be observed within the physical Earth system.The ontology is shown to be flexible and robust enough to describe concepts drawn from a range of Earth science disciplines,including ecology,geochemistry,hydrology and oceanography.This paper also demonstrates the alignment and compatibility of the ontology with existing systems and shows applications in which the ontology may be deployed.
