Based on the study of the Mechanical Design and Automation major and its relevance to teaching reform in higher education engineering programs,a project-based teaching model was introduced.This approach integrates tea...Based on the study of the Mechanical Design and Automation major and its relevance to teaching reform in higher education engineering programs,a project-based teaching model was introduced.This approach integrates teaching design,scheme argumentation,and the implementation of teaching activities with the project serving as the central framework.Course knowledge points are derived from the project topics,forming the foundation for a structured knowledge framework.The course content is modularized in alignment with the project design,enabling students to engage with professional courses on a module-by-module basis,guided by the project.Each course utilizes the project topic as a practical case,facilitating project-led teaching.A teaching system tailored to the research project is proposed,establishing a professional course structure closely linked to the project objectives.展开更多
With the advancement of digital technology,new technologies such as artificial intelligence,big data,and cloud computing have gradually permeated higher education,leading to fundamental changes in teaching and learnin...With the advancement of digital technology,new technologies such as artificial intelligence,big data,and cloud computing have gradually permeated higher education,leading to fundamental changes in teaching and learning methods.Therefore,in the process of reforming and developing higher education,it is essential to take digital technology empowering the optimization of the education industry as a breakthrough,focusing on five key areas:the construction of smart classrooms,the digital integration of teaching resources,the development of personalized learning support systems,the reform of online-offline hybrid teaching,and the intelligentization of educational management.This paper also examines the experiences,challenges,and shortcomings of typical universities in using digital technology to improve teaching quality,optimize resource allocation,and innovate teaching management models.Finally,corresponding countermeasures and suggestions are proposed to facilitate the smooth implementation of digital transformation in higher education institutions.展开更多
With the shift in the definition of disease from non-alcoholic fatty liver disease(NAFLD)to metabolism-associated fatty liver disease(MAFLD),as well as the rapid evolution of pathological classification and therapeuti...With the shift in the definition of disease from non-alcoholic fatty liver disease(NAFLD)to metabolism-associated fatty liver disease(MAFLD),as well as the rapid evolution of pathological classification and therapeutic targets,traditional clinical teaching models face challenges such as outdated guideline updates,disjointed translation of scientific research,and limited skill training.This study proposes a dynamic training model integrating“guidelines,clinical practice,and scientific research.”Through stratified case-based teaching(e.g.,FibroScan simulator and metabolic sand table),dynamic guideline analysis(comparing old and new evidence),and the integration of scientific thinking(visualization of CAND1 protein mechanism),a teaching system that integrates theory and practice is constructed.Innovatively developed smart assistant tools(AI decision support system,VR liver biopsy simulator)and a multi-dimensional evaluation system(deviation analysis of diagnosis and treatment pathways,milestone assessment)are used while emphasizing metabolic medicine integration(continuous glucose monitoring and digital therapy)and ethical privacy protection(federated learning framework).This model aims to cultivate students’evidence-based decision-making skills and scientific research transformation thinking through dynamic knowledge base construction and interdisciplinary collaboration,providing sustainable teaching solutions to cope with the rapid iteration of NAFLD diagnosis and treatment.展开更多
Smart classroom is an inevitable result of the deepening integration of new-generation information technology and education means,and it is an unavoidable choice of university education informatization in the intellig...Smart classroom is an inevitable result of the deepening integration of new-generation information technology and education means,and it is an unavoidable choice of university education informatization in the intelligent era.The Bridge-in,Outcomes,Pre-assessment,Participatory Learning,Post-assessment,and Summary(BOPPPS)model is used to construct the effective teaching mode of a smart classroom based on the analyses of the connotation and characteristics of a smart classroom,and the teaching reform and practice are carried out on the“Road Engineering Construction Technology and Organization”course.Through a questionnaire survey,it is found that the construction of a smart classroom effective teaching model can fully mobilize students’learning enthusiasm and improve the efficiency and effectiveness of students’learning.展开更多
Education digitalization is an inevitable trend of technological development.Based on the theories related to smart classrooms,this research constructs a“3+5”teaching model and implements a mixed methods research in...Education digitalization is an inevitable trend of technological development.Based on the theories related to smart classrooms,this research constructs a“3+5”teaching model and implements a mixed methods research in Jinshan Elementary School in Chongqing.The“3”in the name refers to three stages of teaching,namely before,during,and after class.The“5”in the name refers to five links of teaching,namely prediction,fine-tuning,detailed explanation,intensive support,and extension.Through questionnaire and interview,it is found that most students and teachers are very satisfied with the“3+5”teaching model.The model based on the iFLYTEK smart classroom can accurately locate students’learning situation,improve classroom efficiency,develop personalized learning plans,and provide data support for the digital transformation of primary school mathematics.展开更多
基金The 2023 Qingdao Institute of Technology Campus-Level Teaching and Research Project“Research on Project-Based Teaching Model for Engineering Majors in Colleges and Universities”(2023JY005)。
文摘Based on the study of the Mechanical Design and Automation major and its relevance to teaching reform in higher education engineering programs,a project-based teaching model was introduced.This approach integrates teaching design,scheme argumentation,and the implementation of teaching activities with the project serving as the central framework.Course knowledge points are derived from the project topics,forming the foundation for a structured knowledge framework.The course content is modularized in alignment with the project design,enabling students to engage with professional courses on a module-by-module basis,guided by the project.Each course utilizes the project topic as a practical case,facilitating project-led teaching.A teaching system tailored to the research project is proposed,establishing a professional course structure closely linked to the project objectives.
文摘With the advancement of digital technology,new technologies such as artificial intelligence,big data,and cloud computing have gradually permeated higher education,leading to fundamental changes in teaching and learning methods.Therefore,in the process of reforming and developing higher education,it is essential to take digital technology empowering the optimization of the education industry as a breakthrough,focusing on five key areas:the construction of smart classrooms,the digital integration of teaching resources,the development of personalized learning support systems,the reform of online-offline hybrid teaching,and the intelligentization of educational management.This paper also examines the experiences,challenges,and shortcomings of typical universities in using digital technology to improve teaching quality,optimize resource allocation,and innovate teaching management models.Finally,corresponding countermeasures and suggestions are proposed to facilitate the smooth implementation of digital transformation in higher education institutions.
文摘With the shift in the definition of disease from non-alcoholic fatty liver disease(NAFLD)to metabolism-associated fatty liver disease(MAFLD),as well as the rapid evolution of pathological classification and therapeutic targets,traditional clinical teaching models face challenges such as outdated guideline updates,disjointed translation of scientific research,and limited skill training.This study proposes a dynamic training model integrating“guidelines,clinical practice,and scientific research.”Through stratified case-based teaching(e.g.,FibroScan simulator and metabolic sand table),dynamic guideline analysis(comparing old and new evidence),and the integration of scientific thinking(visualization of CAND1 protein mechanism),a teaching system that integrates theory and practice is constructed.Innovatively developed smart assistant tools(AI decision support system,VR liver biopsy simulator)and a multi-dimensional evaluation system(deviation analysis of diagnosis and treatment pathways,milestone assessment)are used while emphasizing metabolic medicine integration(continuous glucose monitoring and digital therapy)and ethical privacy protection(federated learning framework).This model aims to cultivate students’evidence-based decision-making skills and scientific research transformation thinking through dynamic knowledge base construction and interdisciplinary collaboration,providing sustainable teaching solutions to cope with the rapid iteration of NAFLD diagnosis and treatment.
文摘Smart classroom is an inevitable result of the deepening integration of new-generation information technology and education means,and it is an unavoidable choice of university education informatization in the intelligent era.The Bridge-in,Outcomes,Pre-assessment,Participatory Learning,Post-assessment,and Summary(BOPPPS)model is used to construct the effective teaching mode of a smart classroom based on the analyses of the connotation and characteristics of a smart classroom,and the teaching reform and practice are carried out on the“Road Engineering Construction Technology and Organization”course.Through a questionnaire survey,it is found that the construction of a smart classroom effective teaching model can fully mobilize students’learning enthusiasm and improve the efficiency and effectiveness of students’learning.
文摘Education digitalization is an inevitable trend of technological development.Based on the theories related to smart classrooms,this research constructs a“3+5”teaching model and implements a mixed methods research in Jinshan Elementary School in Chongqing.The“3”in the name refers to three stages of teaching,namely before,during,and after class.The“5”in the name refers to five links of teaching,namely prediction,fine-tuning,detailed explanation,intensive support,and extension.Through questionnaire and interview,it is found that most students and teachers are very satisfied with the“3+5”teaching model.The model based on the iFLYTEK smart classroom can accurately locate students’learning situation,improve classroom efficiency,develop personalized learning plans,and provide data support for the digital transformation of primary school mathematics.
