In order to solve existing problems about the method of establishing traditional system structure of decision support system(DSS), O S chart is applied to describe object oriented system structure of general DSS, an...In order to solve existing problems about the method of establishing traditional system structure of decision support system(DSS), O S chart is applied to describe object oriented system structure of general DSS, and a new method of eight specific steps is proposed to establish object oriented system structure of DSS by using the method of O S chart, which is applied successfully to the development of the DSS for the energy system ecology engineering research of the Wangheqiu country. Supplying many scientific effective computing models, decision support ways and a lot of accurate reliable decision data, the DSS plays a critical part in helping engineering researchers to make correct decisions. Because the period for developing the DSS is relatively shorter, the new way improves the efficiency of establishing DSS greatly. It also makes the DSS of system structure more flexible and easy to expand.展开更多
This paper studies the numerical simulation for semiconductor devices and discusses the software design of the simulation system. Our focus is on the deep submicron device simulation for BJT, MOSFET, heterojunction bi...This paper studies the numerical simulation for semiconductor devices and discusses the software design of the simulation system. Our focus is on the deep submicron device simulation for BJT, MOSFET, heterojunction bipolar transistors (HBT), etc. So the object oriented technology for software design and its realization is used to make the system easy to implement, maintain and extend. Besides the discussion of simulation and software system design, this paper introduces a device simulator SMDS and its parallel extension under local network environment using CORBA technology.展开更多
The rapid emergence of the Internet of Things(IoT),immersive technologies,and spatial devices is transforming architecture by changing the built environment from a passive backdrop to an active participant in user act...The rapid emergence of the Internet of Things(IoT),immersive technologies,and spatial devices is transforming architecture by changing the built environment from a passive backdrop to an active participant in user activities.This shift creates complex sociotechnical networks and leads to what we call intelligent places adaptive systems that respond to user behavior,environmental signals,and interactions with architectural components.This study investigates how advanced material foundations and embedded technological objects shape human-building interactions and drive adaptive behaviors in intelligent place systems.We test the hypothesis that integrating virtual reality(VR),augmented reality(AR),and spatial sensors within smart materials creates continuous real-time feedback loops.These loops are expected to enhance user engagement,spatial adaptability,and environmental responsiveness.Employing a qualitative methodology that includes case studies and content analysis,augmented by AI-assisted image analysis,we explore recent trends in smart building design through two projects:the Spatially Intelligent Arts Centre in Geelong,Australia,and the iPortals network of interactive spatial components.The findings indicate that intelligent places are open,dynamic,and continually evolving systems.Technological objects mediate multiloop feedback among users,materials,and building automation,enabling more autonomous,energy-efficient,and responsive environments.This study contributes a conceptual framework for understanding how technological objects and their material Foundations mediate human-building interactions in intelligent places.Future research should consider scalability across different architectural contexts and explore the sociocultural impacts on diverse user groups.展开更多
文摘In order to solve existing problems about the method of establishing traditional system structure of decision support system(DSS), O S chart is applied to describe object oriented system structure of general DSS, and a new method of eight specific steps is proposed to establish object oriented system structure of DSS by using the method of O S chart, which is applied successfully to the development of the DSS for the energy system ecology engineering research of the Wangheqiu country. Supplying many scientific effective computing models, decision support ways and a lot of accurate reliable decision data, the DSS plays a critical part in helping engineering researchers to make correct decisions. Because the period for developing the DSS is relatively shorter, the new way improves the efficiency of establishing DSS greatly. It also makes the DSS of system structure more flexible and easy to expand.
文摘This paper studies the numerical simulation for semiconductor devices and discusses the software design of the simulation system. Our focus is on the deep submicron device simulation for BJT, MOSFET, heterojunction bipolar transistors (HBT), etc. So the object oriented technology for software design and its realization is used to make the system easy to implement, maintain and extend. Besides the discussion of simulation and software system design, this paper introduces a device simulator SMDS and its parallel extension under local network environment using CORBA technology.
文摘The rapid emergence of the Internet of Things(IoT),immersive technologies,and spatial devices is transforming architecture by changing the built environment from a passive backdrop to an active participant in user activities.This shift creates complex sociotechnical networks and leads to what we call intelligent places adaptive systems that respond to user behavior,environmental signals,and interactions with architectural components.This study investigates how advanced material foundations and embedded technological objects shape human-building interactions and drive adaptive behaviors in intelligent place systems.We test the hypothesis that integrating virtual reality(VR),augmented reality(AR),and spatial sensors within smart materials creates continuous real-time feedback loops.These loops are expected to enhance user engagement,spatial adaptability,and environmental responsiveness.Employing a qualitative methodology that includes case studies and content analysis,augmented by AI-assisted image analysis,we explore recent trends in smart building design through two projects:the Spatially Intelligent Arts Centre in Geelong,Australia,and the iPortals network of interactive spatial components.The findings indicate that intelligent places are open,dynamic,and continually evolving systems.Technological objects mediate multiloop feedback among users,materials,and building automation,enabling more autonomous,energy-efficient,and responsive environments.This study contributes a conceptual framework for understanding how technological objects and their material Foundations mediate human-building interactions in intelligent places.Future research should consider scalability across different architectural contexts and explore the sociocultural impacts on diverse user groups.
