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Graduation project proposal report based on JAVA (Springboot framework) university laboratory management system
1. Research background and significance
University laboratories are important places for teaching and scientific research, and play an important role in improving students' practical and innovative abilities. However, there are many problems in the traditional university laboratory management methods, such as low informatization, low management efficiency, and insufficient resource utilization. Therefore, it is of great significance to design and develop a university laboratory management system based on JAVA (Springboot framework). It will be able to improve the efficiency and standardization of laboratory management, optimize resource allocation, and promote the smooth development of teaching and scientific research.
2. Research status at home and abroad
In the field of laboratory management, universities and enterprises at home and abroad have carried out certain research and practice. Foreign research mainly focuses on the design and development of laboratory information systems to realize digital management and sharing of laboratory resources. Domestic research focuses more on the optimization and informatization of laboratory management processes. However, existing laboratory management systems still have shortcomings in intelligent decision support and real-time monitoring of laboratory equipment and instruments.
3. Research ideas and methods
This research will follow the research idea of "demand analysis-system design-system development-experimental verification and optimization-deployment and application". Specific research methods include literature review, field research, requirements analysis, system design, programming implementation, experimental verification, etc. Through these methods, we will have an in-depth understanding of the actual needs of university laboratory management, and design and develop a university laboratory management system that meets the actual needs.
4. Research content and innovation points
The main contents of this study include demand analysis, system design, system development and implementation, experimental verification and optimization of university laboratory management systems. The innovation lies in:
- Intelligent decision support: Through data mining and artificial intelligence technology, intelligent recommendation and allocation of laboratory resources are realized, providing intelligent decision support for laboratory management.
- Real-time monitoring of laboratory equipment and instruments: Build a monitoring module for laboratory equipment and instruments to monitor the operating status of the equipment and instruments in real time to improve equipment utilization and laboratory safety.
- Cloud deployment and data sharing: Cloud computing technology is used to realize cloud deployment and data sharing of the system to meet the collaborative office and data sharing needs of university laboratory management departments and other departments.
5. Backend functional requirement analysis and front-end functional requirement analysis
Backend function requirement analysis: Backend functions mainly include user rights management, laboratory resource management, experimental project management, equipment and instrument monitoring, data statistics and analysis, etc. These functions will provide laboratory managers with comprehensive backend management support and enable effective monitoring and scheduling of laboratory resources.
Front-end functional requirements analysis: Front-end functions mainly include user login and registration, personal information management, experimental project application and management, laboratory resource inquiry and reservation, equipment and instrument status viewing, etc. These features will provide students with a convenient front-end operation experience and enable self-service of laboratory resources.
6. Research ideas, research methods, and feasibility
This study uses JAVA (Springboot framework) as the development technology foundation, combined with technical means such as cloud computing, data mining and artificial intelligence to ensure the technical feasibility of the system. At the same time, through close cooperation with partner university laboratories, we conduct in-depth research on actual management needs to ensure the practical application value and feasibility of research results. The research team has experience in JAVA programming and Springboot framework development, which can ensure the smooth progress of the research.
7. Research progress arrangement
The detailed research schedule includes: project initiation and establishment (1 month), demand research and analysis (2 months), system design (1 month), system development (4 months), experimental verification and optimization (2 months) month), system deployment and application (1 month), project summary and paper writing (1 month). It took a total of 12 months to complete the entire research work.
8. Thesis (design) writing outline
Thesis writing outline includes: cover, table of contents, Chinese and English abstracts, keywords, introduction, research background and significance, domestic and foreign research status, research ideas and methods, university laboratory management system analysis and design, system development and implementation, experimental verification and Optimization, system deployment and application effect evaluation, conclusions and prospects, etc.
9. Main References
List the main literature and related materials referenced in this proposal report, including but not limited to academic papers, monographs, research reports and technical documents, etc. . These references will provide important theoretical support and technical guidance for the conduct of this research.
Of course, the following is a detailed description of the development process of the university laboratory management system based on JAVA (Springboot framework):
1. Project preparation and launch
- Determine the project team: Organize a development team with experience in JAVA and Springboot development.
- Technical preparation: Ensure that JAVA, Springboot and other necessary development tools and technologies are installed in the development environment.
2. Demand research and analysis
- Communicate with university laboratory management departments to gain an in-depth understanding of their daily work content, management processes and needs.
- Research other existing laboratory management systems and analyze their advantages and disadvantages.
- Output detailed requirements documents to clarify the functional and non-functional requirements of the system.
3. System design
- Technical architecture design: Determine the overall technical architecture of the system, such as front-end and back-end separation, microservices, etc.
- Functional module design: According to the requirements document, the system is divided into multiple functional modules, and a detailed functional process is designed for each module.
- Database design: Design the database table structure, fields and relationships required by the system.
4. System development and implementation
- Environment setup: Set up development, testing and production environments.
- Backend development: Based on the Springboot framework, develop the backend functions of the system, including user management, laboratory resource management, experimental project management, etc.
- Front-end development: Design and implement the system's front-end interface, interface with the back-end interface, and realize data display and interaction.
- Integration and testing: Integrate the developed modules to ensure collaborative work between modules. At the same time, the system is tested in detail, including unit testing, integration testing and system testing.
5. Experimental verification and optimization
- Conduct pilot applications in cooperative university laboratories and collect user feedback.
- Make necessary optimizations and improvements to the system based on user feedback.
6. System deployment and application
- Deploy the system to cloud servers to ensure system stability and scalability.
- Provide training to university laboratory managers to ensure they are familiar with the operating procedures of the system.
7. Project summary and paper writing
- Summarize experiences and lessons learned during system development to provide reference for subsequent projects.
- Write a graduation thesis based on the system development process and results.
Throughout the development process, the project team needs to maintain close communication to ensure the progress and quality of the project. At the same time, we must continue to learn and master new technologies to provide support for system development and optimization.