Recently, the selection results of the 2022 China Industry-University-Research Cooperation Innovation and Promotion Award have been announced. Professor Hansen, member of Academician Zhuang Songlin’s Team, has won the “China Industry-University-Research Cooperation Innovation Award (Individual).”
The China Industry-University-Research Institute Collaboration Association (CIUR)’s Cooperation Innovation Awards and Cooperation Promotion Awards were established with the approval of the Ministry of Science and Technology of the People’s Republic of China and the National Office for Science and Technology Awards. The awards are the front-line closely related awards to commend exemplary units and individuals that have made outstanding achievements in the construction of the innovation system for government-led environment creation, enterprise-emphasized innovation, activation of disciplinary talents, achievements in scientific and technological research and development, corresponding guarantee of financial support, efficiency improvement of intermediary services, and efficiency increase of achievements transformation. The awards, which have played an important role in promoting the establishment of a unit-based, market-oriented, industry-university-research in-depth integration of technological innovation system, have been well recognized as the honorary awards by the circles of science and technology, the circles of industry, the circles of education,the circles of finance and various other circles of society.
Professor Hansen’s project’s achievements mainly aim at the needs of high-end testing instruments, and systematically carry out research and tackle key technologies of modular laser interferometer design and application. Firstly, the key components and measurement software of the laser interferometer are developed based on the modular design idea, and various types of high-precision digital laser interferometer are formed; On the basis of meeting the requirements of high-precision relative measurement, the absolute detection algorithm and closed-loop self-test technology are proposed to improve the accuracy of plane shape detection by five times. The project’s achievements have completed the engineering of digital laser interferometer, developed a variety of commercial inspection instruments, and realized the perfect combination of production, teaching and research.