项目成员
项目经理
Prof. Kang ZHANG
项目导师
Prof. Jinni ZHOU, Prof. Beijinni LI
组员
Ka Man CHOI, Yu DAI (Hong Kong University of Science and Technology (Guangzhou));
Hui SU, Haoran SUN, Chenyi ZHANG (China Academy of Art)
融合学科
Hong Kong University of Science and Technology (Guangzhou) & China Academy of Art Joint Design Thinking Program
项目内容
项目背景
As a national intangible cultural heritage, Xiangyunsha Dyeing and Coating Technique is still facing the dilemma of being rarely known to the public, especially the young generation. To arouse people's attention and interest in the intangible cultural heritage, we proposed to set up an Xiangyunsha Art Installation with an area of about 2 square meters in public areas, like airports and high-speed railway stations, to promote the values of Xiangyunsha to visitors and local citizens. The combination of "virtual and reality" enables users to experience the intricated dyeing and coating process of Xiangyunsha. By combining these with AIGC technology, unique patterns will be generated according to the user’s VR exploration, so each user will get a personalized Xiangyunsha memento. The goal is to let users understand the history, craftsmanship and cultural value of Xiangyunsha through immersive experience and interactive learning, to stimulate people's interest and explore the methods of cultural inheritance of intangible cultural heritage.
项目技术
The project utilizes a linear interactive timeline, combining virtual reality, generative art, and laser engraving to form a Xiangyunsha moving installation. Using VR, the geographically and time-bound process of making Xiangyunsha becomes virtual and gamified for the audience to experience. The method simulates the time it takes for the craftsmen to wait for the weather integrating the 5 main making steps in the production process, allowing the audience to feel the value of the craft better. More importantly, the user must complete the entire making experience to generate and engrave a personalized memento, symbolizing the preciousness of craftsmanship behind Xiangyunsha.
团队成果
Through interdisciplinary collaboration, students from different thrusts and backgrounds such as Computational Media and Arts, Electrical Engineering and Design, integrated with Virtual Reality, Generative Art and Laser Engraving technologies, successfully developed an Interactive Installation for Xiangyunsha. We aim to break the limitations of time and weather, so users and audiences can understand the value of the intangible cultural heritage and preserve this sustainably. The interaction not only aims to stimulate interest in the culture of Xiangyunsha but also innovate the method of dissemination and transmission of intangible cultural heritage.
Deepening our knowledge in our respective areas of expertise, we learned from each other's specialized skills. In an interdisciplinary and collaborative environment, we worked together to understand and integrate knowledge and techniques, which facilitated the multi-directional implementation of the project. With design thinking strategies, we went back and forth between problem definition, understanding stakeholders, and idea and prototype development with project planning, execution, and evaluation. We enhanced our project management skills, including time management, resource allocation, and task coordination, to ensure that projects were completed on time, which was 2.5 weeks for brainstorming and planning and only 1.5 weeks for implementation. Confronting technical and design challenges, we demonstrated creative thinking and problem-solving skills, where we successfully applied virtual reality, generative art and laser engraving techniques to balance our technological integration and aesthetic concerns.
In addition, we trained our communication and presentation skills in project collaboration and presentations, not only in our team but also externally for interviews on the streets. Through the in-depth research of Xiangyunsha, we are interested in exploring new methods of inheritance on intangible cultural heritage.
团队寄语
应用科技和交互方式,我们希望从了解现有问题和相关用户了解来融合科技传承文化,而不是以科技来取代工艺本身。
– XAI Group
项目成员
项目经理
Prof. Kai Zhang
项目导师
Prof. Jinni Zhou
RBM 1st Cohort
学术导师
组员
Kai ZHANG, Chengyang LI, Guoyang ZHAO, Yujie ZHOU, Mandan CHAO
项目内容
项目背景
Unmanned patrol vehicles represent a significant advancement in the field of security and surveillance. These systems are designed to operate without direct human intervention, by leveraging sophisticated automation technologies. The development of Unmanned patrol vehicles addresses the growing need for efficient, continuous, and reliable surveillance in various settings. By reducing the reliance on human patrols, these vehicles enhance safety, reduce operational costs, and provide real-time data collection and analysis.
Methods and Techonology
Localization and Mapping - Use multi-modal sensor data to generate motion estimation and a 3D map of the environment.
Perception - Use deep learning to interpret the environment and recognize objects.Planning and Control - Make the robot move without collision.
团队成果
All members of the group obtained extensive training from hands-on hardware and software development of an autonomous vehicle. We have practically expereinced a long-term team project involving the application of a large range of skill set and knowledge discipline.
Project Video
项目成员
项目经理
吴景深教授
SMMG
项目导师
Dr. Ke XUE
RBM
RBM 1st Cohort
学术导师
组员
Zibo LIN, Yuhang YUAN, Chenyuan LUO, Zhenlin ZHONG
RBM 2nd Cohort
学术导师
组员
Minghao SHAO, Hongda HUANG, Linxue TONG
项目内容
项目背景
The widespread application of disposable packaging such as corrugated cardboard boxes in logistics has greatly facilitated people's production and life. However, the large amount of packaging waste generated poses a challenge to the sustainable development of human society. In response to the current high economic cost and significant environmental impact of disposable logistics packaging, this project aims to achieve packaging reduction and greening in various logistics scenarios through recyclable digital logistics turnover boxes. It also aims to improve the efficiency of the logistics system by coupling RFID and other IoT technologies with big data analysis, thereby achieving the goal of cost reduction, carbon reduction, and efficiency enhancement.
Methods and Techonology
The project's initial aspiration is to offer a suite of eco-friendly and intelligent logistics packaging solutions to the industry. It is designed systematically and encompasses a comprehensive layout of key nodes across the entire industry chain, such as material modification, equipment manufacturing, chip design, and the establishment of logistics systems. The project aims to tackle each critical node with small teams of two to three members, facilitating a chain-like synergy of innovation.
团队成果
Through preliminary division of labor and field research, the team designed and initially set up a smart packaging management system based on recyclable turnover boxes for the campus food delivery scenario, reducing the use of disposable plastic bags and enabling the circular use of delivery packaging. The project won the first prize in the Campus Sustainable Smart Living Competition and was highly praised by the judges.
In the various stages of project initiation discussions, field research, plan implementation, and project roadshows, students from different academic backgrounds actively engaged in discussions, generating many sparks of inspiration. Guided by the mentors of the project team and through the concerted efforts of the students, students with a background in business and social sciences have gained a clearer understanding of how to progressively implement a project through technology and design. Students with a background in science and engineering have also learned more about considering the costs of project implementation and the potential for future commercial value in the process.
Messages form the team
Team Leader: Zibo LIN
Against the backdrop of sustainable development, the challenge of achieving economic viability, low carbon footprint, and meeting the public's expectations for enhanced logistics efficiency in packaging is an exciting and enduring research topic. The project-based, interdisciplinary talent development model ensures that every team member is supported throughout their research journey, constantly learning from various disciplines and engaging with diverse perspectives. Two years have passed quickly, and we still carry the dreams we started with and are now taking more resolute steps towards our goals.