Smart urban development is an inevitable choice, and is essential to overall strength improvement. It is important to explore an urban smart development path which unites smart growth with driving shrinkage perfectly ...Smart urban development is an inevitable choice, and is essential to overall strength improvement. It is important to explore an urban smart development path which unites smart growth with driving shrinkage perfectly in forming scientific and sustainable development concept and responding to new normal strategic opportunities. Based on statistic data of 294 prefecture-level cities and above in China from 2000 to 2015, we analyzed spatial and temporal evolution of urban smart development in China by constructing a dynamic fitting model of urban land expansion, population growth, and economic development as well as the coefficient of variation of urban smart development(CVSD). Further efforts were then made to consider differential distribution regularity of urban smart development so as to understand the driving mechanisms of heterogeneous classification of urban smart development in China from different scales and scale variation. Our results indicate that: 1) the disordered growth tendency of urban cities in China is overall well controlled in the middle, and late research and it mainly presented a doublet coexistence of shrinkage disordered cities and smart developing cities. It is particularly obvious that Northeast China and East China have regarded shrinkage disordered cities and smart developing cities as main development tendency separately. 2) Areas with basic stability and relative variation were relatively dispersed across the time period, but the proportion was far beyond areas with significant variation. It demonstrates a relative equilibrium spatial and temporal differential evolution pattern of prefecture-level cities and above in China, except for Tongling, Lanzhou and Chaoyang. 3) prefecture-level cities and above in China are mostly characterized by shrinkage disordered and smart development classification under the background of different scale and scale variation from 2000–2015; however, the spatial resonance relation is not obvious. 4) There are many interaction factors forming an important driving mechanism in developing the spatial and temporal pattern of urban smart development in China, including natural geographical factors, industrial structure adjustment, human capital radiation, regional traffic accessibility, and government decision-making intervention.展开更多
Blockchain technology has been incorporated into the field of next-generation information infrastructure in China and is experiencing rapid development.Utilizing blockchain and other emerging technologies to develop i...Blockchain technology has been incorporated into the field of next-generation information infrastructure in China and is experiencing rapid development.Utilizing blockchain and other emerging technologies to develop intelligent logistics is essential for logistics enterprises to reduce costs,enhance efficiency,and improve quality.By analyzing and summarizing the issues within the development of China’s logistics industry,this paper discusses its growth from three perspectives:policy,technology,and industry.展开更多
A new manufacturing and business infrastructure industrial ecosystem model with the state-of-the art core infrastructure and smart applications in the form of inclusive smart innovation cluster is seen as a powerful t...A new manufacturing and business infrastructure industrial ecosystem model with the state-of-the art core infrastructure and smart applications in the form of inclusive smart innovation cluster is seen as a powerful tool to drive industrial symbiosis, economic, social and inclusive development. Essentially an integrated eco-industrial park, these clusters demonstrate applications of industrial ecology principles among the occupant units, besides promoting sustainable societies from economic, environmental and social perspectives. The holistic planning and development of these clusters from economic, environmental and social sustainability considerations or alternatively, the sustainability assessment of these clusters is highly complex. The research reported upon forms part of a larger study that aims to develop an integrated decision support system for sustainability assessment of inclusive smart innovation cluster. The paper discusses the conceptual model of the cluster and the need to establish context specific key indicators and influence factors from economic, environmental and social sustainability considerations. The paper proposes a structured methodology for development of key indicators and influence factors. The paper concludes by identifying a set of 184 key indicators and influence factors for comprehensive sustainability assessment of inclusive smart innovation cluster.展开更多
In recent years, "Smart Grid" has become a hot topic and its related technologies are believed to be the best solutions for future power grid development to meet the 21st century’s challenges across the wor...In recent years, "Smart Grid" has become a hot topic and its related technologies are believed to be the best solutions for future power grid development to meet the 21st century’s challenges across the world, especially展开更多
This study chose major Chinese cities and used the creative model of Smart Low-carbon Strength Quo- tient (SLSQ) to investigate the level and state of urban smart low-carbon development. The results show that: (1...This study chose major Chinese cities and used the creative model of Smart Low-carbon Strength Quo- tient (SLSQ) to investigate the level and state of urban smart low-carbon development. The results show that: (1) three main categories of smart low-carbon cities are found; namely, leaders with high SLSQ, steady ones with av- erage SLSQ and lagging ones with low SLSQ; (2) the SLSQ level shows a spatial change trend of diminishing from the southeast to the northwest and differing within regions; (3) the SLSQ level indicates an urban scale change trend of decreasing from the big to the small and differing within each scale; (4) the SLSQ level suggests an ad- ministrative hierarchy change trend of descending from the high to the low and differing within each class; (5) based on the SLSQ, three dynamic patterns were identified: leading mode, steady mode and preparing mode, among which the steady mode accounts for the vast majority of smart low-carbon development in major Chinese cities.展开更多
Computing students face the problem with time and quality of the work while managing their graduation/senior projects.Rapid Application Development(RAD)model is based on continual user involvement for the process of r...Computing students face the problem with time and quality of the work while managing their graduation/senior projects.Rapid Application Development(RAD)model is based on continual user involvement for the process of requirement gathering via prototyping.After each iteration,the developers can validate the requirements that are completed in the iteration.Managing a project with RAD is easier but not flexible.On the other hand,Agile project management techniques focus on flexibility,agility,teamwork and quality based on user stories.Continual user involvement is avoided,which requires extensive maintenance time for fixing iteration and release of the story points.This also makes it necessary to provide onsite training to the users of the application.This research provides the pros and cons of RAD and Agile project management techniques,to help students in deciding the best approach for managing their graduation projects.For the evaluation of these techniques,similar case studies were given to the senior project students(having similar CGPAs)for building similar functionality-based applications.The two projects“Life Organizer”developed and managed using RAD and“Smart Patient Assistant(SPA)”developed and managed through Agile methodology were evaluated against the quality assurance criteria for senior projects.The study found that the project developed with RAD methodology performed 13.33%better in providing extensive and elaborated documentation than the students following the Agile technique.On the other hand,SPA-Agile based project,due to teamwork had 2.5%better implementation than Life Organizer-RAD based project.展开更多
基金Under the auspices of National Natural Science Foundation of China(No.41101548)Philosophy and Social Science Research Program of Heilongjiang Province in 2016(No.16JBL01)+1 种基金Key Research Projects of Economic and Social Development in Heilongjiang Province(No.JD2016014)Human Civilization and Social Science Supportive Program for Excellent Young Scholars of Harbin Normal University(No.SYQ2014-06)
文摘Smart urban development is an inevitable choice, and is essential to overall strength improvement. It is important to explore an urban smart development path which unites smart growth with driving shrinkage perfectly in forming scientific and sustainable development concept and responding to new normal strategic opportunities. Based on statistic data of 294 prefecture-level cities and above in China from 2000 to 2015, we analyzed spatial and temporal evolution of urban smart development in China by constructing a dynamic fitting model of urban land expansion, population growth, and economic development as well as the coefficient of variation of urban smart development(CVSD). Further efforts were then made to consider differential distribution regularity of urban smart development so as to understand the driving mechanisms of heterogeneous classification of urban smart development in China from different scales and scale variation. Our results indicate that: 1) the disordered growth tendency of urban cities in China is overall well controlled in the middle, and late research and it mainly presented a doublet coexistence of shrinkage disordered cities and smart developing cities. It is particularly obvious that Northeast China and East China have regarded shrinkage disordered cities and smart developing cities as main development tendency separately. 2) Areas with basic stability and relative variation were relatively dispersed across the time period, but the proportion was far beyond areas with significant variation. It demonstrates a relative equilibrium spatial and temporal differential evolution pattern of prefecture-level cities and above in China, except for Tongling, Lanzhou and Chaoyang. 3) prefecture-level cities and above in China are mostly characterized by shrinkage disordered and smart development classification under the background of different scale and scale variation from 2000–2015; however, the spatial resonance relation is not obvious. 4) There are many interaction factors forming an important driving mechanism in developing the spatial and temporal pattern of urban smart development in China, including natural geographical factors, industrial structure adjustment, human capital radiation, regional traffic accessibility, and government decision-making intervention.
文摘Blockchain technology has been incorporated into the field of next-generation information infrastructure in China and is experiencing rapid development.Utilizing blockchain and other emerging technologies to develop intelligent logistics is essential for logistics enterprises to reduce costs,enhance efficiency,and improve quality.By analyzing and summarizing the issues within the development of China’s logistics industry,this paper discusses its growth from three perspectives:policy,technology,and industry.
文摘A new manufacturing and business infrastructure industrial ecosystem model with the state-of-the art core infrastructure and smart applications in the form of inclusive smart innovation cluster is seen as a powerful tool to drive industrial symbiosis, economic, social and inclusive development. Essentially an integrated eco-industrial park, these clusters demonstrate applications of industrial ecology principles among the occupant units, besides promoting sustainable societies from economic, environmental and social perspectives. The holistic planning and development of these clusters from economic, environmental and social sustainability considerations or alternatively, the sustainability assessment of these clusters is highly complex. The research reported upon forms part of a larger study that aims to develop an integrated decision support system for sustainability assessment of inclusive smart innovation cluster. The paper discusses the conceptual model of the cluster and the need to establish context specific key indicators and influence factors from economic, environmental and social sustainability considerations. The paper proposes a structured methodology for development of key indicators and influence factors. The paper concludes by identifying a set of 184 key indicators and influence factors for comprehensive sustainability assessment of inclusive smart innovation cluster.
文摘In recent years, "Smart Grid" has become a hot topic and its related technologies are believed to be the best solutions for future power grid development to meet the 21st century’s challenges across the world, especially
基金Key program of the National Natural Science Foundation of China(71433008)General program of the National Natural Science Foundation of China(41571151)
文摘This study chose major Chinese cities and used the creative model of Smart Low-carbon Strength Quo- tient (SLSQ) to investigate the level and state of urban smart low-carbon development. The results show that: (1) three main categories of smart low-carbon cities are found; namely, leaders with high SLSQ, steady ones with av- erage SLSQ and lagging ones with low SLSQ; (2) the SLSQ level shows a spatial change trend of diminishing from the southeast to the northwest and differing within regions; (3) the SLSQ level indicates an urban scale change trend of decreasing from the big to the small and differing within each scale; (4) the SLSQ level suggests an ad- ministrative hierarchy change trend of descending from the high to the low and differing within each class; (5) based on the SLSQ, three dynamic patterns were identified: leading mode, steady mode and preparing mode, among which the steady mode accounts for the vast majority of smart low-carbon development in major Chinese cities.
文摘Computing students face the problem with time and quality of the work while managing their graduation/senior projects.Rapid Application Development(RAD)model is based on continual user involvement for the process of requirement gathering via prototyping.After each iteration,the developers can validate the requirements that are completed in the iteration.Managing a project with RAD is easier but not flexible.On the other hand,Agile project management techniques focus on flexibility,agility,teamwork and quality based on user stories.Continual user involvement is avoided,which requires extensive maintenance time for fixing iteration and release of the story points.This also makes it necessary to provide onsite training to the users of the application.This research provides the pros and cons of RAD and Agile project management techniques,to help students in deciding the best approach for managing their graduation projects.For the evaluation of these techniques,similar case studies were given to the senior project students(having similar CGPAs)for building similar functionality-based applications.The two projects“Life Organizer”developed and managed using RAD and“Smart Patient Assistant(SPA)”developed and managed through Agile methodology were evaluated against the quality assurance criteria for senior projects.The study found that the project developed with RAD methodology performed 13.33%better in providing extensive and elaborated documentation than the students following the Agile technique.On the other hand,SPA-Agile based project,due to teamwork had 2.5%better implementation than Life Organizer-RAD based project.
