In the 2023 "China Graduate Innovation and Practice Series Competition", a total of 473 graduate students from Shanghai University participated in the competition, with excellent results, and won a total of 120 national awards, including 9 first prizes, 46 second prizes, and 65 third prizes. In April 2023, it ranked 39th among the top 100 universities in China in the "China Graduate Innovation and Practice Series Competition" released by the Chinese Association of Academic Degrees and Graduate Education, and was rated as an "important contributor to the development of the decade".
Guided by the Department of Degree Management and Graduate Education of the Ministry of Education, and co-sponsored by the Chinese Association of Academic Degrees and Graduate Education and the Youth Science and Technology Center of the China Association for Science and Technology, the "China Graduate Innovation and Practice Series Competition" is currently the only national competition specifically for graduate students that is recognized and guided by the Ministry of Education. The Innovation Practice Competition adheres to the fundamental task of establishing morality and cultivating people, serves the reform and development of graduate education, and serves the needs of national strategy and industrial innovation for high-level talents, forming a "national strategic demand-oriented" competition pattern and a "supported by the participation of industry enterprises" operation mode, and has successively set up 16 theme events focusing on national strategy and industrial needs, providing a platform for innovative practice, communication and display and career selection and entrepreneurship for more than 880,000 graduate teachers and students in more than 650 graduate training units.
In 2023, Shanghai University will win three times the number of national first prizes in the series of competitions, ranking first among Shanghai universitiesThe total number of national awards received increased by 165%, ranking among the top three universities in Shanghai for three consecutive years. In particular, in the China Graduate Artificial Intelligence Innovation Competition, it won the first prize in the country, making a historic breakthroughThe China Graduate Student "Double Carbon" Innovation and Creativity Competition won three first prizes, ranking first among Shanghai universities for two consecutive years.
Introduction to the award-winning project.
China Graduate Artificial Intelligence Innovation Competition.
2 items) 1 national first prize.
1 national third prize.
China Graduate Student "Double Carbon" Innovation and Creativity Competition.
10 items) 3 national first prizes.
2 national second prizes.
5 national third prizes.
China Graduate Enterprise Management Innovation Competition.
10 items) 2 national first prizes.
5 national second prizes.
3 national third prizes.
China Graduate Electronic Design Competition.
4 items) 1 national first prize.
3 national second prizes.
China Graduate Mathematical Contest in Modeling.
89 items) 2 national first prizes.
There are 31 national second prizes.
There are 56 national third prizes.
China Graduate Robot Innovation Design Competition.
6 items) 3 national second prizes.
3 national third prizes.
"Beautiful China" Innovative Design Competition for Chinese Graduate Students.
4 items) 2 national second prizes.
2 national third prizes.
China Graduate Financial Technology Innovation Competition.
2 items) 2 national third prizes.
Huawei Cup" The 5th China Graduate Students.
Artificial Intelligence Innovation Competition.
Team Cancendo.
Team Leader: Ren Xinzhen (2022 Ph.D. student, School of Mechanical and Electrical Engineering and Automation).
Team members: Jin Maoyu, Luo Sen (2022 master's student, School of Mechanical and Electrical Engineering and Automation), Liang Wei (2021 doctoral student, School of Mechanical and Electrical Engineering and Automation).
Supervisor: Wenju Zhou.
Project Title: Cancendo Fusion Disposable Electronic Endoscope for Early Cancer Diagnosis.
Project introduction: In view of the limited rotation angle of the front end of the traditional endoscope, the difficulty of operation when rotating to observe the lesion, the inability to thoroughly clean and disinfect, and the high risk of cross-infection, the design of the front end and disposable insert of the multi-angle endoscope was developed to solve the problem of the instrument occluding the field of vision during surgery and eliminate the risk of cross-infection.
In order to solve the problem that traditional endoscopes do not have the function of early cancer diagnosis and have a high rate of missed detection of early cancer lesions with strong concealment, this work uses an early cancer screening algorithm based on small sample Xi and a telescopic lens method to measure the size of lesions, accurately identify suspected early cancer lesions, and improve the rapidity and accuracy of diagnosis and treatment.
Acceptance speech. Team members plan together when facing challenges, show their strengths when they encounter problems, and share learning and Xi experience when they make progress. While focusing on their own projects, each member actively learns Xi the advantages of other projects, shares scientific research experience, and enriches project experience. Between each grade, a number of longitudinal echelons are formed between doctors, masters and undergraduates, with the old seniors guiding the new students to provide experience for the new students, and the new students also provide effective support for the seniors' experiments after quickly starting the project, promoting the benign interaction within the team, and providing a steady stream of power for the development of the team.
I am grateful to the teachers who have worked hard, to the support given by all departments of the college, and to us who have worked hard day and night. May we continue to struggle and sweat our youth on the road of scientific research.
GigaDevice Cup" 18th.
China Graduate Electronic Design Competition.
Test Pilot Group.
Team Leader: Jianbo Chu (2022 master's student, School of Mechanical and Electrical Engineering and Automation).
Team members: Hawaii (2021 master's student, School of Mechanical and Electrical Engineering and Automation), Hong Zhangfu (2022 master's student, School of Mechanical and Electrical Engineering and Automation).
Instructor: Wang Fei.
Project Name: Power module dynamic test device.
Project Introduction: With the surge in demand for power semiconductor devices and the acceleration of the localization process in the current "dual carbon" era, the factory testing and early screening of power devices have also been gradually pushed into the process. The purpose of this project is to preliminarily improve the factory yield of power semiconductor devices through dynamic characterization tests and further feed back the packaging design of the devices. Compared with the existing devices on the market, the dynamic test device developed in this project achieves high realism, high compatibility and high accuracy through real working condition simulation, test packaging generalization and disturbance harmonic removal.
Acceptance speech. I am honored to receive this result, and I would like to thank the organizers of the R&D Competition from the bottom of my heart for providing us with a good platform for the competition, as well as the school and teachers for their great supportThis competition is a good exercise of our on-the-spot ability, emergency ability, expression ability and teamwork ability, many seemingly inconspicuous details in the debugging process often determine the feasibility and integrity of the function, and the clear and fluent expression in the explanation process often determines the observability and logic of the demonstration. Through this competition, we have also obtained some valuable guidance from experts, and we will further carry forward the spirit of innovation and entrepreneurship of graduate students in the future, and continue to improve and pursue excellence!
The 2nd China Graduate Student.
"Double Carbon" Innovation and Creativity Competition.
Carbon Exploration Pioneer. 
Team Leader: Hou Weidong (2021 master's student, School of Environmental and Chemical Engineering).
Team members: Liao Huange (2022 master's student, School of Environmental and Chemical Engineering), Liu Wenhui (2022 master's student, School of Environmental and Chemical Engineering), Ni Qianjia (2022 master's student, School of Environmental and Chemical Engineering).
Instructor: Liang Wang.
Project Title: Precise construction of covalently bonded heterojunctions of red carbon quantum dots.
Project Introduction: Based on semiconductor photocatalytic technology, this project designed and synthesized three red fluorescent CQDS linked by different surface functional groups, and successfully coupled with G-C3N4 to R-CQDS CN heterojunction. In order to improve the interfacial properties of heterojunctions, an amide-bonded CN-CQD heterojunction photocatalyst was further synthesized with precise precision, which could catalyze the catalytic reduction of CO2 to CO and CH4 efficiently and sustainably. This project provides insights into the synthesis of high-efficiency heterojunction photocatalysts and contributes to the goal of carbon neutrality.
Acceptance speech. To win the first prize of this competition, we would like to thank our mentor researcher Wang Liang the most. From the preliminary round to the finals, every step was personally guided by Mr. Wang, so that we could confidently stand on the defense field and show our results. The spirit of unity in the group allowed us to gather the best strength to win the honor.
Carbon is "cool, small" and dotted
Team Leader: Wang Zeming (2020 Ph.D. student in Chemical Engineering and Technology, School of Environmental and Chemical Engineering).
Team members: Wang Kang (2023 Ph.D. student in Chemical Engineering and Technology, School of Environmental and Chemical Engineering), Mingwan Zhang (2021 M.S. student in Materials and Chemical Engineering, School of Environmental and Chemical Engineering), Leping Xie (2021 M.S. student in Chemical Engineering and Technology, School of Environmental and Chemical Engineering), Shuai Fu (2022 M.S. student in Chemical Engineering and Technology, School of Environmental and Chemical Engineering).
Instructor: Liang Wang.
Project Name: "Boron" Cheng Wanli, "Telurium" Creates the Future: Green Preparation of Water Electrolysis Catalyst and Key Materials for Hydrogen Fuel Cells.
Project Introduction: This project proposes an application device for hydrogen energy generation and hydrogen energy utilization in series. Focusing on the innovative design of two key materials for the preparation and utilization of green hydrogen, the goal of efficient, cheap and environmentally friendly catalyst synthesis has been achieved through research, mechanism synthesis methods and material innovation. The project has effectively opened up the industrialization possibilities of hydrogen production and hydrogen fuel cells, and contributed to the realization of the "dual carbon goal".
Acceptance speech. The China Graduate Innovation and Creativity Competition is an important platform to encourage innovation and sustainable development. The team has poured countless sweat and efforts into proposing and implementing a "green" innovation project in order to combat climate change, reduce carbon emissions, and promote environmental protection. In the finals, we and 242 other teams competed and Xi with each other, and learned about the specific strategies and practical applications contributed by scholars and teachers in different fields to carbon emission reduction. Our mentor has always been our guide, and his support and guidance have helped us clear the fog and move towards success. We are well aware that the school has always encouraged students to strive for excellence and encourage innovative thinking, and the team will continue to work hard in the future, strive for self-improvement, pursue innovation, and make more contributions to the cause of innovation and sustainable development.
A carbon clean team.
Team Leader: Jinfeng Zhao (2021 Master of Environmental Science and Engineering, School of Environmental and Chemical Engineering).
Team members: Huang Zige (2022 master's student in materials and chemical engineering, School of Environmental and Chemical Engineering), Hu Jie (2022 master's student in environmental science and engineering, School of Environmental and Chemical Engineering), Pan Xiaofan (2023 doctoral student in environmental engineering, School of Environmental and Chemical Engineering), Meng Lingshun (2022 master's student in resources and environment, School of Environmental and Chemical Engineering), Guo Changjin (2021 doctoral student in environmental engineering, School of Environmental and Chemical Engineering).
Instructors: Deng Ning, Huang Xin.
Project Title: An electrochemical water treatment technology that integrates carbon capture and carbon utilization.
Project introduction: The amount of circulating cooling water accounts for 70%-90% of China's total industrial water consumption, and the improvement of circulating water efficiency has been limited by the scaling phenomenon caused by the increase of hardness ion concentration multiple in circulating water. The addition of OH- and CO32- is the most effective method to remove hardness ions in circulating water, and the traditional chemical addition and electrochemical methods cannot achieve the efficient removal of hardness ions without introducing impurities, and the continuous concentration of impurity ions during the evaporation of circulating cooling water will aggravate the risk of pipeline corrosion. This project constructs an integrated device for electrochemical carbon capture, carbon utilization and synchronous dehardening of circulating water. The unique design of gas diffusion electrode and flow field realizes high-efficiency carbon capture of low-concentration flue gas and deep removal of calcium and magnesium ions in circulating water. The project can provide technical support for the dual carbon strategy and has broad application prospects.
Acceptance speech. Under the careful guidance of the tutor and the concerted efforts of the team, I am very honored to win the first prize of the China Graduate Student "Double Carbon" Innovation and Creativity Competition. Behind this honor is the hard work of countless days and nights and the selfless support of the team. Thanks to the wisdom and inspiration of the mentors, the tacit cooperation of the team, and the opportunity of the competition, we can contribute to the dual carbon goals. We will continue to forge ahead, uphold the spirit of innovation, and strive to build a sustainable and low-carbon society. This award inspires us to be more determined to pursue environmental innovation and contribute more to the sustainable future of sustainable development. Thank you again to everyone who supported and encouraged us, thank you!
Graduate students in China.
Enterprise Management Innovation Competition.
On the Big Flying Eagles.
Team Leader: Chen Jiajun (MBA School 2022 graduate student in Business Administration).
Team members: Jiang Zhen (2022 MBA graduate), Meng Linling (MBA 2022 MBA graduate).
Instructor: Tian Meng.
Acceptance speech. We would like to thank the teachers and students of Shanghai University MBA for giving us this opportunity and support, and thank the China Graduate Business Management Innovation Competition for providing us with a high-quality communication platform, so that we can participate in this competition with students from various universities across the country. Learning from our seniors before the game, from our teammates during the game, and from our opponents after the game, we have gained more diverse experience and perspectives through the experience of fierce battles in various major competitions. We look forward to becoming the communicator of the China Graduate Enterprise Management Innovation Competition in the future, and driving more students to participate in it and make progress and grow together.
A team of economic people who ride the wind and waves.
Team Leader: Wang Mengting (2021 Master's Degree Student in International Studies, School of Economics).
Team members: Lin Xiangru (2021 master's student in Western economics, School of Economics), Jiang Linshan (2021 master's student in international ** studies, School of Economics), Xu Qinying (2021 master's student in industrial economics, School of Economics).
Instructors: Meng Tian, Feng Yuxin.
Acceptance speech. With the full support of the school and the efforts of team members, the Economist team is very honored to represent Shanghai University to participate in the 2023 China Graduate Enterprise Management Innovation Competition, and with the full support of the school and the efforts of the team members, it has won the first prize in the country, which is not only an individual honor, but a common honor for the team, the college and the school.
Huawei Cup" 20th.
China Graduate Mathematical Contest in Modeling.
Pioneer. Team Leader: Hu Yue (2022 Master of Management Science and Engineering, Sydney Business School).
Team members: Zhou Hao (2022 Master of Management Science and Engineering, Sydney Business School), Teng Wenwen (2022 Master of Logistics Engineering and Management, School of Management).
Project Title: Research on the Modeling of Clinical Intelligent Diagnosis and Treatment of Hemorrhagic Stroke.
Project Introduction: Through the in-depth analysis of real clinical data of 160 cases, the project has studied the risk of hematoma expansion and the occurrence and evolution of perihematoma edema in patients with hemorrhagic stroke. A variety of mathematical modeling methods, including multilayer perceptron depth Xi model, XGBOOST regression model, random forest regression model, gradient boosted regression model, etc., are used to establish mathematical models for related problems, and the accuracy of these algorithms is compared and analyzed in detail. By comprehensively considering clinical and imaging information, the clinical prognosis of patients with hemorrhagic stroke provides new ideas and methods for improving the prognosis of patients with hemorrhagic stroke.
Acceptance speech. Through this competition, we deeply realized the importance of teamwork, and also exercised our ability to analyze and solve problems. The first prize is not only a recognition of our past efforts, but also a spur and encouragement, we will cherish every opportunity, constantly improve ourselves, and pursue excellence.
All or nothing.
Team Leader: Xu Pengbo (2021 Master of Statistics student, School of Economics).
Team members: Zhu Xingliang (2021 Master of Statistics, School of Economics), Wang Pingping (2021 Master of Applied Economics, School of Economics).
Project Title: Modeling of clinical intelligent diagnosis and treatment of hemorrhagic stroke.
Project Introduction: The rapid development of medical imaging technology and artificial intelligence provides a new method for non-invasive dynamic monitoring of brain tissue damage after hemorrhagic stroke. Hemorrhagic stroke is caused by non-traumatic rupture of intraparenchymal blood vessels, and its incidence accounts for about 10% to 15% of all strokes. Hemorrhagic stroke** may include a ruptured cerebral aneurysm and abnormalities of the cerebral arteries. The purpose of this paper is to use machine Xi and medical imaging data to construct an intelligent diagnosis and treatment model for hemorrhagic stroke, and provide patients with first-class and clinical suggestions.
Acceptance speech. The Huawei Cup Mathematical Modeling Competition is not only a test of the team's mathematics and modeling capabilities, but also a challenge to teamwork and innovative thinking. In this competition, we have achieved good results through clear division of labor, positive communication and firm belief. In the competition, it is important to highlight your ideas and innovations, while ensuring that the format is correct and the language is fluent. This experience has been significant for our academic and personal growth, and it has also inspired us to continue our efforts in mathematics and research in the future.
In recent years, under the guidance of the Department of Academic Degree Management and Graduate Education of the Ministry of Education, the Chinese Association of Academic Degrees and Graduate Education, and the Shanghai Student Affairs Center, the Graduate Affairs Department of the Party Committee of Shanghai University has taken the series of Chinese graduate innovation and practice competitions as the starting point to promote the integration of "schools, colleges, enterprises, teachers and students", and focused on three "focuses" : Focusing on the collaboration of teaching and scientific research, the cutting-edge scientific research projects have been transformed into more than 200 competition works, and the quality of practical results has been continuously improvedFocusing on the linkage between the school and the college, the incentive and guarantee measures will be put in place, and the construction of 8 graduate innovation practice cultivation bases will be focused on to promote the continuous expansion of the participating groupsFocusing on the cooperation between universities and enterprises, we have hired 67 experts who are leading experts in innovation practice inside and outside the university, organized more than 90 series of training sessions on innovation practice, covering more than 2,700 graduate students, and carried out the "Science and Technology Innovation Cup" competition on campus for 9 consecutive years, stimulating the innovative thinking of graduate students, improving the practical ability of graduate students, and creating a good innovation culture on campus.
In the future, we will continue to participate in the competition to guide the majority of graduate students to have the "great man of the country" in mind, focus on the "four aspects", and continue to march towards the breadth and depth of science and technology, so as to contribute wisdom and strength to the construction of a science and technology innovation center with national influence in Shanghai and the construction of a high-level university in Shanghai.
*: Shanghai Baoshan official WeChat.