The 2022 Dyson Design Awards China Division Champion, 2nd and 3rd Runner-up came out. Why did they stand out?

time:2022-11-27 03:43:32 source:scripttoolbox.com author:Camera
The 2022 Dyson Design Awards China Division Champion, 2nd and 3rd Runner-up came out. Why did they stand out?

As a global technology company, Dyson is committed to subverting the traditional innovative products and improving forward-looking technology to solve various problems that human beings urgently need to solve. According to its founder James Dyson, problem-solving is something young people are naturally good at. The James Dyson Award was founded in 2005 by James Dyson to encourage promising young engineers and inventors to create solutions to current and future problems through engineering and science. Since its entry into China in 2016, the Dyson Design Award has inspired more than 10,000 Chinese college students to use their creativity to solve practical problems in life, and provided the contestants with innovative ideas on an international stage to showcase themselves. The top three of the 2022 Dyson Design Awards in China were born a few days ago. What creative solutions have emerged this year in this prestigious competition in engineering design? Come and find out with Lei Technology. The CareRare rare disease screening program won the champion of the Dyson Design Awards in China. The SHIELD nearshore garbage collection equipment and the ThermoWear smart orthosis also stood out from many works with their excellent design solutions and innovative concepts, and won the second and third runner-up. They started in the fields of medical health, ecological environment, etc., committed to solving real-life problems through innovative technology, and contributed to the promotion of a beautiful and inclusive society. The champion project CareRare rare disease screening plan was proposed by the team of Yuan Wang, Li Xin, Ma Shengjin and Wang Jing from East China Normal University. The team hopes to solve the problem of missed diagnosis and misdiagnosis faced by rare disease patients, and reduce the health damage and economic burden it brings to patients. (Source: Dyson) In the scheme proposed by CareRare, it provides a rapid, painless, low-cost screening scheme for rare diseases that can be carried out on a large scale in the population, and aims at the problems of missed diagnosis and misdiagnosis. Developed a rare disease screening all-in-one machine. The product can build a morphological model according to the morphological characteristics of patients, so as to narrow the scope of disease exploration in a targeted manner to save related costs, provide medical workers with auxiliary diagnosis and treatment basis, and improve the efficiency of diagnosis and treatment. Yuan Wang of the CareRare team believes that patients with rare diseases are not uncommon, and the morbidity and mortality rates of patients are high. Many children may not live to adulthood, which is a great disaster for families. Trying to come up with disruptive solutions to societal pain points is one of the strengths of the project's attention, and they also hope to use the Dyson Design Award's influence to attract more people to participate. Dr. Xin Li, who specializes in the diagnosis and treatment of pediatric endocrine, genetic and metabolic diseases, is the leader of the team medicine field. She expects that the results of the project can promote the reform and development of related fields: CareRare can be added to the diagnostic criteria of genetic diseases, including the guideline of genetic diseases, which will become many The hospital's preferred screening solution will ultimately revolutionize the diagnosis and treatment process. (Source: Dyson) Accurate modeling for auxiliary diagnosis and treatment is not an easy task, and the CareRare team invested more than three years to complete the optimization from initial thinking to prototype design. The workload of data collection is heavy and tedious, and the team has collected more than 10,000 photos of domestic genetic diseases and patient photos from foreign public databases, and plans to continuously improve the performance to improve the accuracy of the diagnostic model in the future. In products that rely more on engineering design, we can see the enthusiasm and thinking of young engineers. The runner-up project is the wave-assisted nearshore garbage collection equipment SHIELD proposed by Yan Zeteng of Tsinghua University. This device uses waves as a power source to defend and collect nearshore marine debris. Yan Zeteng said that the ultimate goal of the design is to help reduce global marine debris, and the work has now obtained a utility model patent. (Source: Dyson) Looking back at the entire design process, Yan Zeteng mentioned that SHIELD has been extremely challenging to select topics from the early days. With a background in design, he lacked professional knowledge in marine engineering or fluids. Therefore, during the design process, he sought guidance from a sister majoring in coastal environmental engineering. During product iteration, he tried many prototypes and conducted many experiments in order to maximize the collection effect and optimize the internal structure of the product. He believes that only after thinking about the product structure and the use structure, the appearance of the product will emerge naturally, and the designer needs to skillfully integrate these two external factors. The inspiration of the second runner-up work ThermoWear smart orthosis comes from the insights and discoveries of team members during the treatment process. Team member Yang Yue believes that both doctors and patients need lower costs, and at the same time, it is easy to shape and fit different people and different situations. Brace products for physical condition. ThermoWear uses the properties of materials to heat up and deform at low temperature to create a reusable and quick-to-shape brace. The built-in sensor can also help doctors and patients to understand the patient's recovery more intuitively. (Photo source: Dyson) This project lasted for one and a half years, and students in electronic engineering, circuits, materials science, and industrial design continued to make suggestions. In terms of future prospects, the Thermowear team said that it will focus on the field of medical rehabilitation and make positive contributions and changes to the customization of braces or the customization process of smart braces. Throughout the previous competitions and outstanding award-winning works, this is a concentrated expression of the young generation of Chinese designers who have insight into problems, dismantling needs, and seek solutions with their own whimsy. The future of invention.

(Responsible editor:Chassis)

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