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SPEIT Students Achieve Outstanding Results in the China International College Students' Innovation Competition

10.19/2024 26

「READING」

 

On the banks of the Huangpu River, the tide of innovation is surging. From October 12 to 15, 2024, the finals of the China International Student Innovation Competition (2024) were held at the Minhang Campus of Shanghai Jiao Tong University. Shanghai Jiao Tong University Paris Excellence Engineer School (Sino-French School) won 1 gold medal in the finals, and won 1 gold award, 3 silver awards and 1 bronze award in the Shanghai finals held in July this year, achieving a new breakthrough in the college's high-level science and technology innovation competition!

 

 

 

List of award-winning projects

 

 

 

Winners of the 🏆 finals

 

Award-winning projects 🏆 in Shanghai

 

 

 

The China International College Student Innovation Competition (2024) is co-sponsored by the Ministry of Education, the United Front Work Department of the CPC Central Committee, the Cyberspace Administration of the CPC Central Committee, the National Development and Reform Commission, the Ministry of Industry and Information Technology, the Ministry of Human Resources and Social Security, the Ministry of Agriculture and Rural Affairs, the Chinese Academy of Sciences, the Chinese Academy of Engineering, the State Intellectual Property Office, the National Rural Revitalization Administration, the Central Committee of the Communist Youth League and the Shanghai Municipal People's Government.

 

With the theme of "I dare to break through, I will create", and focusing on the overall goal of "more Chinese, more international, more educational, more comprehensive, more innovative, and more collaborative", this year's competition brought together world-renowned universities, enterprises and entrepreneurs, attracting a total of 5.14 million projects and 20.836 million students from 5,406 universities in 153 countries and regions at home and abroadIt has effectively promoted the cross-time and space exchanges between young students from different countries, cultures and skin colors, and promoted the formation of a good ecology in which young students from all over the world think together, cooperate together, tolerate and support each other, and work together to promote world peace and development.

 

 

 

 

🏅🏅🏅

Some of the award-winning projects

01

Reviving History: An Interactive and Versatile Method for Cultural Relic Reconstruction and Interaction-- Multi-modal Generative and Rendering (MGR) AI Platform

A new generation of history: MGR's multi-functional AI platform for the reconstruction and interaction of cultural relics

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  • Awards: Gold Medal in the International Circuit Finals

  • member:Jianqiao Zheng, Xueqian Li, Qi Chen, Cameron Gordon, Fengyi Yang, Nanyu Dong

  • Representative institution: University of Adelaide, Australia

  • Instructors: Junfang Cheng, Feng Zhao, Xinyu Li

  • Responsible unit: Shanghai Jiao Tong University Paris Excellence Engineering Institute

 

 

 

Project Brief Introduction

        Based on the irreversible damage to global historical heritage, the high restoration barriers of traditional technologies and the long period of repair, the project team "ReviveAI" launched the MGR multi-functional AI platform project for the reconstruction and interaction of cultural relics. The team introduced neural radiance field and Gaussian sputtering technology into 3D reconstruction to achieve low-cost sampling and high-precision restoration of cultural relics. Through the multi-modal image fusion technology, the sampling information is accurately aligned, and the Gaussian sputtering rendering technology is used to construct the digital model of cultural relics. According to the historical data and multi-modal data analysis, reasonable completion is carried out to restore the original form and historical style of cultural relics. Through efficient and accurate 3D reconstruction technology, it provides technical support for the impromptu interaction between people and cultural relics, and can also recreate and integrate cultural relics of different eras according to user needs to create new plots. The core technology of the project is low-cost and high-precision 3D modeling technology, which will provide technical support for advertising design, game modeling and film animation industries, and provide simpler, faster and more economical solutions for the digital protection and innovative interaction of cultural heritage.

 

 

Project Highlights:

The three-dimensional reconstruction technology based on neural radiation field and Gaussian sputtering innovates the traditional technology and brings a simpler, faster and lower cost solution for the digitization and restoration of cultural relics. Introduce multi-modal alignment to establish a historical expert model to provide a more accurate, objective and comprehensive restoration plan.

 

The students of the team are all PhDs from the University of Adelaide, with research backgrounds in computer, AI vision, business, mathematics, curation, finance and other disciplines, and have published more than 40 related papers, including more than 20 in one/total, and make reports at top international conferences such as CVPR, ICCV, ECCV and so on every year.

 

The project's 3D modeling technology provides technical support for advertising design, game modeling, film animation and other industries, and will greatly promote the digital cultural relics library and immersive AR exhibitions, and will strive to become a new benchmark for cultural heritage protection and dissemination.

 

 

Preparatory process

Since the launch of the 2024 National Innovation Competition in June this year, the secretary and dean of the college have attached great importance to it and personally deployed and mobilized teachers and students of the college to participate in the competition. The "Ancient and Modern Intelligence" team was recommended by Li Xinyu, a researcher at the University of Adelaide, to Cheng Junfang, a teacher at the Paris Institute of Excellence in Engineering. Instructor Cheng Junfang coordinated with multiple parties, Wei Guanghua, director of the Science and Technology Innovation Center of the college, and Liu Jing, secretary of the Youth League Committee, organized a number of expert guidance, Yao Xue, deputy secretary of the Party committee, and Zhong Shengyi, vice president of the Party committee, respectively introduced Li Zhongmou, director of the Shanghai Jiaotong University Museum Museum, and Wang Ziyao, researcher of Yangzhou Museum, and the two experts gave feedback on the core technology; Zhao Feng, deputy secretary of the Party Committee of Shanghai Jiaotong University-Southern California Institute of Culture and Creativity, gave guidance to the project, and introduced President Zhao Pengchong, an alumnus of Jiaotong University and founder of the Storm Island brand, to assist in the implementation and transformation of project technology; Mr. Feng Xiao from the School of Entrepreneurship of Shanghai Jiao Tong University and Mr. Huang Kaifeng from the International Exchange Office gave selfless guidance to the project and coordinated several rounds of high-level expert counseling meetings. In terms of event support, Sun Yiming and Huang Jiawei, students of the Paris Excellence Institute of Engineers, were responsible for PPT optimization and financial analysis respectively, and Cui Ruihan, Chen Xinyi, Zhou Zhipeng, Yu Che and other students sorted out the roadshow Q&A.

 

 

Instructor testimonials

Shanghai Jiao Tong University Paris School of Excellence for Engineers

Tenured associate professor Cheng Junfang

Shanghai Jiaotong University-Southern California Institute of Cultural and Creative Industries

Deputy Secretary of the Party Committee Zhao Feng

AIML Postdoctoral Research Fellow, University of Adelaide

Li Xinyu

More

The "Reviving History" project won the gold medal not only to recognize the technical strength of the "Ancient and Modern Intelligent Innovation" team, but also to recognize cross-border cooperation and cross-field cooperation. Cheng Junfang, the first instructor of the project, is mainly in the field of new energy, but with great interest in the theme of this project, a strong recognition of the team's strength and technology, and the spirit of "dare to break through and create", Cheng Junfang, the first instructor of the project, overcame professional barriers and challenges, realized cross-field and interdisciplinary guidance, and formed a new understanding of the field of AI and computer vision. Through this competition, the core members of the project put their creative ideas into practice, and received guidance from experts in various industries to achieve self-growth. This award is also a recognition of the international platform of the Paris School of Excellence Engineering of Shanghai Jiaotong University, which is inseparable from the organized management and unconditional support of the college for science and technology innovation competitions. Overseas students are welcome to rely on the Paris Excellence Engineering Institute of Shanghai Jiaotong University to participate in the competition, "dare to break through, dare to create", and the future is infinitely possible!

 

02

Golden Eye Vision - Guardian of Safe Road Conditions

 

 

  • Awards: Shanghai Gold Award in the main track of higher education

  • Team members: Li Ang, Fang Xiaoyong, Zhou Junfeng, Fang Fuyi, Peng Zhaoliang, Wei Xingyu, Fan Yu, Dai Bo, Wu Ruixing, Zhao Tianyu, Tao Zhimin, Zhang Bing

  • Instructors: Zhang Wenming, Gao Qiuhua, Shao Lei, Hu Kaiming, Yi Zhiran

  • Responsible unit: Shanghai Jiao Tong University Paris Excellence Engineering Institute

 

 

 

Project Brief Introduction

In view of the technical problems of MEMS lidar pavement detection, the "Golden Eye Vision" team designed a MEMS lidar solution based on coaxial pulse laser light receiver path and single photon detection technology. The solution has great advantages compared with similar products in terms of core technical indicators, and the first metal micromirror processing and packaging method based on silicon-based MEMS process realizes the low-cost manufacturing of metal MEMS micromirrors with large corners and large mirrors, and the product cost is reduced by 50% on average compared with similar products on the market. The solution has obtained a number of patents and published many papers in top international journals. The team is committed to a new generation of pavement inspection technology to help the high-quality development of national highway infrastructure and maintenance in the 14th Five-Year Plan.

 

 

Award-winning experience

 

Project Leader: Li Ang, Master's Student, École des Excellence des Engineers in Paris

I am honored to be able to win the gold medal in the city competition for the first time in the national innovation competition, and I recall the process of constantly overturning and starting again in the preparation for the competition, although it was hard, but I gained a lot. The unremitting perseverance of the team and the cohesion of the team are the source of our courage to face the challenges. I would like to thank the advisors and team members for their joint efforts, as well as the experts inside and outside the school and the teachers of the school for their full support and careful guidance. We will maintain our original intention, pursue excellence, and continue to forge ahead on the road of scientific research and innovation.

 

03

Yichong Power——

Small, modular power system for low-altitude economy

 

 

  • Awards: Shanghai Silver Award in the main track of higher education

  • Team members: Yang Yuekun, Wei Zheng, Jiang Xinru, Xu Yuan, Jiang Qingyue, Zeng Weizhen, Liu Chang, Wang Yuechi, Hou Mingxi, Li Weisen, Li Donghan

  • Instructors: Wei Guanghua, Wu Junqi, Xiao Jianrong

  • Responsible unit: Shanghai Jiao Tong University Paris Excellence Engineering Institute

 

 

 

Project Brief Introduction

The project team is committed to the development of small modular aero engines with completely independent intellectual property rights, and the project team has realized the product route of eight engines of different configurations derived from a core machine through the self-developed modular engine development technology and metal additive manufacturing process, which is used to adapt to different configurations of UAVs and provide them with cost-effective power system solutions. At the same time, through the self-developed adaptive supercharger technology and heat recovery technology, the team has reduced the fuel consumption of the engine, broken through the limitations of small aero engines that are difficult to be applied in high-altitude areas, expanded the application range of heavy-duty UAVs, improved the flight performance of UAVs, and helped the development of China's low-altitude economic industry. There are mainly the following features and highlights:

  1. Solve the bottleneck problem of civil small aero engines relying on imported products, and provide small engines with high power-to-weight ratio, low fuel consumption and long life for low-altitude economic industries.

  2. Through self-developed modular technology, engines of different configurations can share core components, reduce the cost of engine development and use, and provide a cost-effective power system for the low-altitude economy industry.

  3. By applying the additive manufacturing process to the design and manufacturing process, the number of engine parts and external pipes is reduced, and the engine reliability is improved.

 

04

AI-empowered additive manufacturing materials R&D system

  • Awards: Shanghai Silver Award in the Industrial Track

  • Team members: Li Minglang, Sheng Pucong, Zong Shuwen, Chen Tingting, Yang Junjie, Long Jiachen, Jiang Zeyu, Bai Ruobing

  • Instructors: Zhong Shengyi, Chen Zhe, Shi Qiwei, Shang Xiaoqing

  • Responsible unit: Shanghai Jiao Tong University Paris Excellence Engineering Institute

 

 

 

Project Brief Introduction

The AI-enabled additive manufacturing material system developed in this project combines a variety of material R&D process technologies including high-throughput characterization and AI-acceleration, which can accurately and efficiently determine multiple key characteristic parameters in material R&D, such as element content, microstructure and physical stress, etc., providing a new and accelerated perspective and tool for the R&D of new materials in additive manufacturing. The successful development of this technology not only promotes the rapid evaluation and optimization of new materials in the field of cutting-edge science and technology, but also helps to improve the accuracy and efficiency of material design in additive manufacturing, and accelerates the industrialization process of new material research and development. The application of this technology will not only enhance the influence of China's materials science research and related technologies, but also promote international cooperation and exchanges in materials science. At the same time, for economic development and national defense security, this technology will provide strong support for the development of high-performance products such as key aerospace materials and new energy vehicles and the upgrading of its industrial chain, and effectively promote the improvement of China's scientific and technological strength and national defense competitiveness.

 

 

Award-winning experience

Project Leader: Li Minglang, Master Student, École des Excellence des École des Etémérales de Paris

I am deeply honored to be recognized in the National Innovation Competition. This is the greatest recognition of the hard work of our entire team. From the idea to the implementation of the project, we experienced countless challenges, but with the team's collaboration and innovative spirit, we successfully broke through one technical problem after another. This award is not only a reward for past efforts, but also an incentive for future research and development. I hope that through the R&D system of additive manufacturing materials we have developed, we can further promote industrial technology innovation and achieve a wider range of industrial applications.

 

05

Red light to sail - to do the red story of studying in France

narrator and bearer

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  • Awards: Shanghai Silver Award at the Red Brigade Circuit

  • Team members: Yu Xianglin, Wu Han, Wei Yuxuan, Tian Yuan, Yu Dian, Liu Yinuo, Wang Anjie, Chen Zhe, Wang Qixuan

  • Instructors: Lv Jiangying, Chen Cailian, Yao Xue, Ren Yi

  • Responsible unit: Shanghai Jiao Tong University Paris Excellence Engineering Institute

 

 

 

Project Brief Introduction

 

Focusing on the new starting point of the 60th anniversary of the establishment of diplomatic relations between China and France, and aiming at the practical problems faced by the inheritance and development of the precious red memories of work-study in France, the social practice project of "Red Light with Navigation" has been carried out in an innovative form for different audiences for three consecutive years, including the photo exhibition of "The Mission of Two Generations of Youth Across Time and Space", the bilingual drama performance of "Red Light", the "Red Light" propaganda group, the series of oral history interviews of "Siyuan · Excellence", and the social practice of pursuing overseas red relics A series of inheritance activities attracted more than 500,000 people's attention to the history of the work-study movement in France; It has been publicized and reported by more than 10 large media such as People's Daily, CCTV and Xinhuanet; It has built a large-scale cooperation platform, integrated more than 20 relevant units at home and abroad studying in France and signed a long-term social practice base, promoted the red story to the world, and called on the majority of young people to contribute their youth strength to the realization of the second centenary goal, so that the red gene will shine more brightly in the new era.

 

 

 

 

 

 

 

 

Congratulations again to the above award-winning teachers and students!

🏆🏆🏆 🎉🎉🎉

 

This year's National Innovation Competition has ended,

Shanghai Jiaotong University Chinese law students will continue to play

The spirit of "I dare to break through, I will create".

Promote the innovation and application of science and technology!

 

 

 

 

Source: College Learning and Innovation Center, Student Work Office

Provided by the relevant project leader

Editing & Typesetting|Zhou Xiangyu, Shao Haiyang

 

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http://speit.sjtu.edu.cn/