This paper argues that in an era of accelerating climate change and rising sea levels,what truly matters is not merely the marine structure itself,but the foresight and adaptability embedded in its conception.As globa...This paper argues that in an era of accelerating climate change and rising sea levels,what truly matters is not merely the marine structure itself,but the foresight and adaptability embedded in its conception.As global urbanization intensifies along coastlines,and as storms grow stronger and ecosystems degrade,there is an urgent need for transformative approaches to ocean engineering and design.We introduce Terrestrial Education,an interdisciplinary framework that moves beyond conventional sustainability models by integrating ecological intelligence,regenerative systems thinking,and advanced technologies.Unlike traditional approaches that focus on minimizing harm,Terrestrial Education emphasizes active ecological restoration,socio-technical evolution,and planetary stewardship.Drawing on lessons from space exploration,such as closed-loop life support systems,autonomous environmental management,and modular habitat design,we demonstrate how these principles can inspire resilient marine infrastructures,including floating platforms,submerged laboratories,and biointegrated offshore structures.These designs are envisioned not only for their physical durability but also for their capacity to regenerate ecosystems and foster meaningful human interaction with marine environments.The paper highlights key priorities such as adaptability to climate extremes,energy efficiency through marine renewables,and environmental integration using biomimetic materials.By aligning with the Sustainable Development Goals of the blue economy,Terrestrial Education offers a future-oriented model that harmonizes environmental,technological,and economic objectives.Ultimately,this framework provides a conceptual and operational foundation for reimagining marine structures as catalysts for innovation,educational transformation,and resilient planetary futures in the climate era.展开更多
This review focuses on the application of process engineering in electrochemical energy conversion and storage devices innovation. For polymer electrolyte based devices, it highlights that a strategic simple switch fr...This review focuses on the application of process engineering in electrochemical energy conversion and storage devices innovation. For polymer electrolyte based devices, it highlights that a strategic simple switch from proton exchange membranes(PEMs) to hydroxide exchange membranes(HEMs) may lead to a new-generation of affordable electrochemical energy devices including fuel cells, electrolyzers, and solar hydrogen generators. For lithium-ion batteries, a series of advancements in design and chemistry are required for electric vehicle and energy storage applications. Manufacturing process development and optimization of the LiF eP O_4/C cathode materials and several emerging novel anode materials are also discussed using the authors' work as examples.Design and manufacturing process of lithium-ion battery electrodes are introduced in detail, and modeling and optimization of large-scale lithium-ion batteries are also presented. Electrochemical energy materials and device innovations can be further prompted by better understanding of the fundamental transport phenomena involved in unit operations.展开更多
The collaborative development of future learning centers in engineering university is a crucial component of integrating education,technology,and talent development.Its essence lies in cultivating top-notch innovative...The collaborative development of future learning centers in engineering university is a crucial component of integrating education,technology,and talent development.Its essence lies in cultivating top-notch innovative engineering talents with both scientific and technological literacy and humanistic feelings for the great rejuvenation of the Chinese nation through a historical narrative and a deep understanding of engineering talent cultivation in China.By tracing back to the formation of educator Mei Yiqi’s engineering intentions,the integration of engineering knowledge,and the history of engineering education governance,this paper proposes the key to the collaborative development of future learning centers in engineering university in the era of artificial intelligence.Firstly,it is necessary to update educational concepts and view learners as dynamically self-empowered individuals with plural existences.Secondly,attention should be paid to dynamic knowledge of possibilities,and cross-subject and interdisciplinary cognition and reflection should be carried out based on the types of engineering knowledge.Thirdly,it is essential to establish an engineering talent cultivation model with problem-guided knowledge learning as the core.With the support of digital network platforms and artificial intelligence technology,an infinite link of ideas and knowledge can be established through comprehensive textual methods,constructing learners’own“infinite library”and a spiritual world that is proactive,creative,and cultural.展开更多
Abstract: Innovation is a process of taking an original idea and converting it into a business value, in which the engineers face some inventive problems which can be solved hardly by experience. TRIZ, as a new theor...Abstract: Innovation is a process of taking an original idea and converting it into a business value, in which the engineers face some inventive problems which can be solved hardly by experience. TRIZ, as a new theory for companies in China, provides both conceptual and procedural knowledge for finding and solving inventive problems. Because the government plays a leading role in the diffusion of TRIZ, too many companies from different industries are waiting to be trained, but the quantity of the trainers mastering TRIZ is incompatible with that requirement. In this context, to improve the training effect, an interactive training model of TRIZ for the mechanical engineers in China is developed and the implementation in the form of training classes is carried out. The training process is divided into 6 phases as follows: selecting engineers, training stage-l, finding problems, training stage-2, finding solutions and summing up. The government, TRIZ institutions and companies to join the programs interact during the process. The government initiates and monitors a project in form of a training class of TRIZ and selects companies to join the programs. Each selected companies choose a few engineers to join the class and supervises the training result. The TRIZ institutions design the training courses and carry out training curriculum. With the beginning of the class, an effective communication channel is established by means of interview, discussion face to face, E-mail, QQ and so on. After two years training practices, the results show that innovative abilities of the engineers to join and pass the final examinations increased distinctly, and most of companies joined the training class have taken congnizance of the power of TRIZ for product innovation. This research proposes an interactive training model of TRIZ for mechanical engineers in China to expedite the knowledge diffusion of TRIZ.展开更多
The historic Treaty of Paris passed at the 21st UN Climate Change Conference on 12 December,2015 makes a commitment to control global warming within 2℃.Data released by the Global Carbon Project showed that the goal ...The historic Treaty of Paris passed at the 21st UN Climate Change Conference on 12 December,2015 makes a commitment to control global warming within 2℃.Data released by the Global Carbon Project showed that the goal of controlling global warming within 2℃ may be achieved only if CO2 emissions controlled must be less than 3.2 trillion tons.Since entering the era of industrialization,around 2 trillion tons of CO2 have been emitted展开更多
Many specified business needs in enterprise context cannot be effectively satisfied using current business process technology.This phenomenon is called the "long tail" of business processes.In addition,more ...Many specified business needs in enterprise context cannot be effectively satisfied using current business process technology.This phenomenon is called the "long tail" of business processes.In addition,more and more business applications need to be accessed from mobile devices such as smartphones by enterprise end users.This paper attempts to solve both two challenges above.A lightweight event-driven process model is proposed aiming at satisfying the spontaneous business needs in enterprise.And we design an innovative wizard,which works like a tutorial,guiding end users in creating this lightweight process model.Moreover,end users are allowed to interact with the process created by themselves on smartphones.Finally,the usability of our approach was evaluated on a small set of users in a real business scenario.The results show that end users can effectively build their personalized business processes using our approach and interact with them in mobile environment.展开更多
Today businesses are facing radical transformations through digitalization of services and products.Accordingly,their ability to innovate is increasingly linked to the capacity to innovate through information and comm...Today businesses are facing radical transformations through digitalization of services and products.Accordingly,their ability to innovate is increasingly linked to the capacity to innovate through information and communication technologies(ICTs).This article investigates the role of information systems(IS)as a key factor for innovation capacity.To this end,the article discusses an interpretive framework for understanding the degree of capacity of innovation through information systems(IS)reached by a given company and the contradictions that bound its evolution.An interpretive study is also presented,where the framework has been applied to seven French companies from various industries.Consistently with the framework,the interviews address process areas and practices related to three core categories:management,innovation engineering and support.The study reveals seven fundamental contradictions that can explain the main tendencies observed across the companies.展开更多
China National Guizhou Aviation Industry (Group) Co.Ltd. originally started as an aviation base for development and production,initiated in 1964 by China’s former Premier Zhou Enlai.Situated in a mountainous area,the...China National Guizhou Aviation Industry (Group) Co.Ltd. originally started as an aviation base for development and production,initiated in 1964 by China’s former Premier Zhou Enlai.Situated in a mountainous area,the base formerly specialized in manufacturing fighter trainer aircraft and air- craft engines as an important constituent of major construction projects at the strategic rear base.This can be considered as the group’s first step on the thorny path of development. At that time,thousands of young people devoted their youth to the construction of the group.Among them was Tan Weidong,who 40 years later became chairman of board, leading 46 subsidiary enterprises and institutions.Staffed with a total of 51,000 employees,the group has over the years become a large state-owned enterprise integrating production of both military and civilian products.On the sidelines of the 2006-07 China Automotive Summit Forum,recently held in Guiyang, Guizhou Province of southwest China,Tan shared with Beijing Review his experience of innovating.展开更多
Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal hosted by Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering,published by EWA ...Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal hosted by Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering,published by EWA Publishing.AEI is a comprehensive journal focusing on multidisciplinary areas of engineering and at the interface of related subjects,including,but not limited to,Artificial Intelligence,Biomedical Engineering,Electrical and Electronic Engineering,Materials Engineering,Traffic and Transportation Engineering,etc.展开更多
Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal hosted by Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering,published by EWA ...Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal hosted by Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering,published by EWA Publishing.AEI is a comprehensive journal focusing on multidisciplinary areas of engineering and at the interface of related subjects,including,but not limited to,Artificial Intelligence,Biomedical Engineering,Electrical and Electronic Engineering,Materials Engineering,Traffic and Transportation Engineering,etc.展开更多
Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal hosted by Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering,published by EWA ...Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal hosted by Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering,published by EWA Publishing.AEI is a comprehensive journal focusing on multidisciplinary areas of engineering and at the interface of related subjects,including,but not limited to,Artificial Intelligence,Biomedical Engineering,Electrical and Electronic Engineering,Materials Engineering,Traffic and Transportation Engineering,etc.展开更多
Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal hosted by Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering,published by EWA ...Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal hosted by Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering,published by EWA Publishing.AEI is a comprehensive journal focusing on multidisciplinary areas of engineering and at the interface of related subjects,including,but not limited to,Artificial Intelligence,Biomedical Engineering,Electrical and Electronic Engineering,Materials Engineering,Traffic and Transportation Engineering,etc.展开更多
Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal hosted by Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering,published by EWA ...Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal hosted by Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering,published by EWA Publishing.AEI is a comprehensive journal focusing on multidisciplinary areas of engineering and at the interface of related subjects,including,but not limited to,Artificial Intelligence,Biomedical Engineering,Electrical and Electronic Engineering,Materials Engineering,Traffic and Transportation Engineering,etc.展开更多
Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal copublished by EWA Publishing and Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engin...Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal copublished by EWA Publishing and Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering.AEI is a comprehensive journal focusing on multidisciplinary areas of engineering and at the interface of related subjects,including,but not limited to,Artificial Intelligence,Biomedical Engineering,Electrical and Electronic Engineering,Materials Engineering,Traffic and Transportation Engineering,etc.展开更多
Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal copublished by EWA Publishing and Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engin...Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal copublished by EWA Publishing and Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering.AEI is a comprehensive journal focusing on multidisciplinary areas of engineering and at the interface of related subjects,including,but not limited to,Artificial Intelligence,Biomedical Engineering,Electrical and Electronic Engineering,Materials Engineering,Traffic and Transportation Engineering,etc.展开更多
Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal copublished by EWA Publishing and Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engin...Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal copublished by EWA Publishing and Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering.AEI is a comprehensive journal focusing on multidisciplinary areas of engineering and at the interface of related subjects,including,but not limited to,Artificial Intelligence,Biomedical Engineering,Electrical and Electronic Engineering,Materials Engineering,Traffic and Transportation Engineering,etc.展开更多
Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal hosted by Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering,published by EWA ...Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal hosted by Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering,published by EWA Publishing.AEI is a comprehensive journal focusing on multidisciplinary areas of engineering and at the interface of related subjects,including,but not limited to,Artificial Intelligence,Biomedical Engineering,Electrical and Electronic Engineering,Materials Engineering,Traffic and Transportation Engineering,etc.展开更多
Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal hosted by Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering,published by EWA ...Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal hosted by Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering,published by EWA Publishing.AEI is a comprehensive journal focusing on multidisciplinary areas of engineering and at the interface of related subjects,including,but not limited to,Artificial Intelligence,Biomedical Engineering,Electrical and Electronic Engineering,Materials Engineering,Traffic and Transportation Engineering,etc.展开更多
Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal hosted by Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering,published by EWA ...Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal hosted by Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering,published by EWA Publishing.AEI is a comprehensive journal focusing on multidisciplinary areas of engineering and at the interface of related subjects,including,but not limited to,Artificial Intelligence,Biomedical Engineering,Electrical and Electronic Engineering,Materials Engineering,Traffic and Transportation Engineering,etc.展开更多
Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal hosted by Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering,published by EWA ...Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal hosted by Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering,published by EWA Publishing.AEI is a comprehensive journal focusing on multidisciplinary areas of engineering and at the interface of related subjects,including,but not limited to,Artificial Intelligence,Biomedical Engineering,Electrical and Electronic Engineering,Materials Engineering,Traffic and Transportation Engineering,etc.展开更多
文摘This paper argues that in an era of accelerating climate change and rising sea levels,what truly matters is not merely the marine structure itself,but the foresight and adaptability embedded in its conception.As global urbanization intensifies along coastlines,and as storms grow stronger and ecosystems degrade,there is an urgent need for transformative approaches to ocean engineering and design.We introduce Terrestrial Education,an interdisciplinary framework that moves beyond conventional sustainability models by integrating ecological intelligence,regenerative systems thinking,and advanced technologies.Unlike traditional approaches that focus on minimizing harm,Terrestrial Education emphasizes active ecological restoration,socio-technical evolution,and planetary stewardship.Drawing on lessons from space exploration,such as closed-loop life support systems,autonomous environmental management,and modular habitat design,we demonstrate how these principles can inspire resilient marine infrastructures,including floating platforms,submerged laboratories,and biointegrated offshore structures.These designs are envisioned not only for their physical durability but also for their capacity to regenerate ecosystems and foster meaningful human interaction with marine environments.The paper highlights key priorities such as adaptability to climate extremes,energy efficiency through marine renewables,and environmental integration using biomimetic materials.By aligning with the Sustainable Development Goals of the blue economy,Terrestrial Education offers a future-oriented model that harmonizes environmental,technological,and economic objectives.Ultimately,this framework provides a conceptual and operational foundation for reimagining marine structures as catalysts for innovation,educational transformation,and resilient planetary futures in the climate era.
基金Supported by the National Basic Research Program of China(2014CB239703)the National Natural Science Foundation of China(21336003)the Science and Technology Commission of Shanghai Municipality(14DZ2250800)
文摘This review focuses on the application of process engineering in electrochemical energy conversion and storage devices innovation. For polymer electrolyte based devices, it highlights that a strategic simple switch from proton exchange membranes(PEMs) to hydroxide exchange membranes(HEMs) may lead to a new-generation of affordable electrochemical energy devices including fuel cells, electrolyzers, and solar hydrogen generators. For lithium-ion batteries, a series of advancements in design and chemistry are required for electric vehicle and energy storage applications. Manufacturing process development and optimization of the LiF eP O_4/C cathode materials and several emerging novel anode materials are also discussed using the authors' work as examples.Design and manufacturing process of lithium-ion battery electrodes are introduced in detail, and modeling and optimization of large-scale lithium-ion batteries are also presented. Electrochemical energy materials and device innovations can be further prompted by better understanding of the fundamental transport phenomena involved in unit operations.
基金2024 General Research Topic of the Chinese Society of Educational Development Strategy,“Research on the Collaborative Development of‘Future Learning Centers’in Engineering University under New Strategic Needs”(Project No.:ZLB20240820)。
文摘The collaborative development of future learning centers in engineering university is a crucial component of integrating education,technology,and talent development.Its essence lies in cultivating top-notch innovative engineering talents with both scientific and technological literacy and humanistic feelings for the great rejuvenation of the Chinese nation through a historical narrative and a deep understanding of engineering talent cultivation in China.By tracing back to the formation of educator Mei Yiqi’s engineering intentions,the integration of engineering knowledge,and the history of engineering education governance,this paper proposes the key to the collaborative development of future learning centers in engineering university in the era of artificial intelligence.Firstly,it is necessary to update educational concepts and view learners as dynamically self-empowered individuals with plural existences.Secondly,attention should be paid to dynamic knowledge of possibilities,and cross-subject and interdisciplinary cognition and reflection should be carried out based on the types of engineering knowledge.Thirdly,it is essential to establish an engineering talent cultivation model with problem-guided knowledge learning as the core.With the support of digital network platforms and artificial intelligence technology,an infinite link of ideas and knowledge can be established through comprehensive textual methods,constructing learners’own“infinite library”and a spiritual world that is proactive,creative,and cultural.
基金supported by National Natural Science Foundation of China(Grant Nos.51275153,51105128)National Innovation Project of China(Grant No.2011IM010200)Social Science Planning Fund Program of Hebei Province,China(Grant No.HB13GL050)
文摘Abstract: Innovation is a process of taking an original idea and converting it into a business value, in which the engineers face some inventive problems which can be solved hardly by experience. TRIZ, as a new theory for companies in China, provides both conceptual and procedural knowledge for finding and solving inventive problems. Because the government plays a leading role in the diffusion of TRIZ, too many companies from different industries are waiting to be trained, but the quantity of the trainers mastering TRIZ is incompatible with that requirement. In this context, to improve the training effect, an interactive training model of TRIZ for the mechanical engineers in China is developed and the implementation in the form of training classes is carried out. The training process is divided into 6 phases as follows: selecting engineers, training stage-l, finding problems, training stage-2, finding solutions and summing up. The government, TRIZ institutions and companies to join the programs interact during the process. The government initiates and monitors a project in form of a training class of TRIZ and selects companies to join the programs. Each selected companies choose a few engineers to join the class and supervises the training result. The TRIZ institutions design the training courses and carry out training curriculum. With the beginning of the class, an effective communication channel is established by means of interview, discussion face to face, E-mail, QQ and so on. After two years training practices, the results show that innovative abilities of the engineers to join and pass the final examinations increased distinctly, and most of companies joined the training class have taken congnizance of the power of TRIZ for product innovation. This research proposes an interactive training model of TRIZ for mechanical engineers in China to expedite the knowledge diffusion of TRIZ.
文摘The historic Treaty of Paris passed at the 21st UN Climate Change Conference on 12 December,2015 makes a commitment to control global warming within 2℃.Data released by the Global Carbon Project showed that the goal of controlling global warming within 2℃ may be achieved only if CO2 emissions controlled must be less than 3.2 trillion tons.Since entering the era of industrialization,around 2 trillion tons of CO2 have been emitted
基金supported by the National 973 Programs(Grant No.2013CB329102)the National Natural Science Foundation of China (Grant No.61003067)Key Project of National Natural Science Foundation of China (Grant No.61132001)
文摘Many specified business needs in enterprise context cannot be effectively satisfied using current business process technology.This phenomenon is called the "long tail" of business processes.In addition,more and more business applications need to be accessed from mobile devices such as smartphones by enterprise end users.This paper attempts to solve both two challenges above.A lightweight event-driven process model is proposed aiming at satisfying the spontaneous business needs in enterprise.And we design an innovative wizard,which works like a tutorial,guiding end users in creating this lightweight process model.Moreover,end users are allowed to interact with the process created by themselves on smartphones.Finally,the usability of our approach was evaluated on a small set of users in a real business scenario.The results show that end users can effectively build their personalized business processes using our approach and interact with them in mobile environment.
文摘Today businesses are facing radical transformations through digitalization of services and products.Accordingly,their ability to innovate is increasingly linked to the capacity to innovate through information and communication technologies(ICTs).This article investigates the role of information systems(IS)as a key factor for innovation capacity.To this end,the article discusses an interpretive framework for understanding the degree of capacity of innovation through information systems(IS)reached by a given company and the contradictions that bound its evolution.An interpretive study is also presented,where the framework has been applied to seven French companies from various industries.Consistently with the framework,the interviews address process areas and practices related to three core categories:management,innovation engineering and support.The study reveals seven fundamental contradictions that can explain the main tendencies observed across the companies.
文摘China National Guizhou Aviation Industry (Group) Co.Ltd. originally started as an aviation base for development and production,initiated in 1964 by China’s former Premier Zhou Enlai.Situated in a mountainous area,the base formerly specialized in manufacturing fighter trainer aircraft and air- craft engines as an important constituent of major construction projects at the strategic rear base.This can be considered as the group’s first step on the thorny path of development. At that time,thousands of young people devoted their youth to the construction of the group.Among them was Tan Weidong,who 40 years later became chairman of board, leading 46 subsidiary enterprises and institutions.Staffed with a total of 51,000 employees,the group has over the years become a large state-owned enterprise integrating production of both military and civilian products.On the sidelines of the 2006-07 China Automotive Summit Forum,recently held in Guiyang, Guizhou Province of southwest China,Tan shared with Beijing Review his experience of innovating.
文摘Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal hosted by Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering,published by EWA Publishing.AEI is a comprehensive journal focusing on multidisciplinary areas of engineering and at the interface of related subjects,including,but not limited to,Artificial Intelligence,Biomedical Engineering,Electrical and Electronic Engineering,Materials Engineering,Traffic and Transportation Engineering,etc.
文摘Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal hosted by Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering,published by EWA Publishing.AEI is a comprehensive journal focusing on multidisciplinary areas of engineering and at the interface of related subjects,including,but not limited to,Artificial Intelligence,Biomedical Engineering,Electrical and Electronic Engineering,Materials Engineering,Traffic and Transportation Engineering,etc.
文摘Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal hosted by Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering,published by EWA Publishing.AEI is a comprehensive journal focusing on multidisciplinary areas of engineering and at the interface of related subjects,including,but not limited to,Artificial Intelligence,Biomedical Engineering,Electrical and Electronic Engineering,Materials Engineering,Traffic and Transportation Engineering,etc.
文摘Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal hosted by Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering,published by EWA Publishing.AEI is a comprehensive journal focusing on multidisciplinary areas of engineering and at the interface of related subjects,including,but not limited to,Artificial Intelligence,Biomedical Engineering,Electrical and Electronic Engineering,Materials Engineering,Traffic and Transportation Engineering,etc.
文摘Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal hosted by Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering,published by EWA Publishing.AEI is a comprehensive journal focusing on multidisciplinary areas of engineering and at the interface of related subjects,including,but not limited to,Artificial Intelligence,Biomedical Engineering,Electrical and Electronic Engineering,Materials Engineering,Traffic and Transportation Engineering,etc.
文摘Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal copublished by EWA Publishing and Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering.AEI is a comprehensive journal focusing on multidisciplinary areas of engineering and at the interface of related subjects,including,but not limited to,Artificial Intelligence,Biomedical Engineering,Electrical and Electronic Engineering,Materials Engineering,Traffic and Transportation Engineering,etc.
文摘Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal copublished by EWA Publishing and Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering.AEI is a comprehensive journal focusing on multidisciplinary areas of engineering and at the interface of related subjects,including,but not limited to,Artificial Intelligence,Biomedical Engineering,Electrical and Electronic Engineering,Materials Engineering,Traffic and Transportation Engineering,etc.
文摘Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal copublished by EWA Publishing and Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering.AEI is a comprehensive journal focusing on multidisciplinary areas of engineering and at the interface of related subjects,including,but not limited to,Artificial Intelligence,Biomedical Engineering,Electrical and Electronic Engineering,Materials Engineering,Traffic and Transportation Engineering,etc.
文摘Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal hosted by Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering,published by EWA Publishing.AEI is a comprehensive journal focusing on multidisciplinary areas of engineering and at the interface of related subjects,including,but not limited to,Artificial Intelligence,Biomedical Engineering,Electrical and Electronic Engineering,Materials Engineering,Traffic and Transportation Engineering,etc.
文摘Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal hosted by Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering,published by EWA Publishing.AEI is a comprehensive journal focusing on multidisciplinary areas of engineering and at the interface of related subjects,including,but not limited to,Artificial Intelligence,Biomedical Engineering,Electrical and Electronic Engineering,Materials Engineering,Traffic and Transportation Engineering,etc.
文摘Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal hosted by Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering,published by EWA Publishing.AEI is a comprehensive journal focusing on multidisciplinary areas of engineering and at the interface of related subjects,including,but not limited to,Artificial Intelligence,Biomedical Engineering,Electrical and Electronic Engineering,Materials Engineering,Traffic and Transportation Engineering,etc.
文摘Advances in Engineering Innovation(AEI)is a peer-reviewed,fast-indexing open access journal hosted by Tianjin University Research Centre on Data Intelligence and Cloud-Edge-Client Service Engineering,published by EWA Publishing.AEI is a comprehensive journal focusing on multidisciplinary areas of engineering and at the interface of related subjects,including,but not limited to,Artificial Intelligence,Biomedical Engineering,Electrical and Electronic Engineering,Materials Engineering,Traffic and Transportation Engineering,etc.
