澳大新語 • 2023 UMAGAZINE 28 38 專題探討 • TOPIC INSIGHT To promote the commercialisation of research results, and with the support of the laboratory and the Zhuhai UM Science & Technology Research Institute, a UM research team has established a startup called Smart Energy in Macao (SEM). Hui Hongxun, assistant professor in the laboratory, serves as the mentor; master’s student Chen Lunshu is the team leader; and master’s students Wang Kexin, Cheng Xinxin, Zhu Jiangge, and Liu Zhaoxi are the core members. According to Prof Hui, the system, which leverages research breakthroughs in internet of things load control, intelligent energy management, and optimisation algorithms as key theoretical and technical support, stands as a testament to the joint efforts of the students and faculty. SEM members have completed the development of the prototype and further refined the intelligent decision-making algorithms in experimental environments. In addition, they actively participate in innovation and entrepreneurship competitions, academic conferences, exhibitions, and internships in companies to gain more knowledge of the latest developments in the industry, as well as relevant technological advancements and engineering applications. Prof Hui believes that with further development and validation, the system holds the potential to make revolutionary contributions in the field of environmental protection. Moreover, the integration of teaching, research, innovation, and entrepreneurship is beneficial for students to enhance their research capabilities and transform their research results into practical applications for public interest. inaccuracy with online diagnostic measurement using electrochemical impedance spectroscopy. Currently, the system is undergoing testing and is expected to be used in monitoring devices for fuel cell power systems, such as electric vehicles, backup batteries, and power stations. Prof Zhang says, ‘Hydrogen-powered electric vehicles are set to become a market trend for sustainable development, which requires efficient and stable fuel cell power systems. Excessive or insufficient oxygen supply can diminish cell performance. The technology we developed can accurately measure the oxygen supply status to ensure that fuel cell power systems achieve optimal performance.’ Developing an Intelligent Energy Management System One UM research team has developed an indoor energy management system based on the research achievements of the State Key Laboratory of Internet of Things for Smart City. Through intelligent decision-making algorithms, the system can automatically adjust the use of indoor energy for users, taking into account key factors such as comfort, carbon emission reduction, and cost reduction. The system’s sensors and intelligent interface terminals are plug-and-play, making it easy for users to install it indoors. In addition, it is equipped with resource aggregation and a big data backend, which allows users to analyse and monitor their indoor energy usage, thereby achieving intelligent energy distribution and adjustment. 希畝團隊成員參與創業比賽 The SEM team members participate in an entrepreneurship competition 澳大開發室內能源智慧管理系統 UM has developed an intelligent indoor energy management system
RkJQdWJsaXNoZXIy MTQ1NDU2Ng==