Qingdao Leice Transient Technology Co., Ltd. is a national high-tech and gazelle enterprise, and a provincial-level new R&D institution in Shandong Province. It was founded by a team of professors and experts from Ocean University of China and Hefei Institute of Materials Science, Chinese Academy of Sciences. By combining independent innovation and industry-university research, it is committed to creating a LiDAR industrialization platform that integrates research and development, manufacturing, and service, providing high-performance and reliable remote sensing LiDAR products and professional technical services for big data applications in meteorology, environmental protection, wind power, ocean, aerospace, and other fields. Leice also lays emphasis on the EDA research and development of integrated circuits for high-speed optoelectronic signal acquisition and processing of LiDAR, as well as the design, development, production and sales of all-solid-state, miniaturized intelligent photoelectric sensors and remote sensing navigation equipment.
After years of independent technological innovation and key technological breakthroughs, the company has mastered multiple internationally advanced core technologies of LiDAR. These achievements have been successfully applied in various fields such as satellite, airborne, shipborne and land-based 3D laser mapping and imaging, environmental pollution monitoring, wind power generation, meteorological and ocean exploration, aerospace safety and efficiency, playing a key role in China's environmental big data platform, environmental pollution monitoring and control, wind energy resource development and utilization, aerospace safety assurance, and other fields.
Laser remote sensing empowers green, safe and high-quality development.
Pioneer of “Earth-Sea-Air-Sky” Laser Remote Sensing Technology
Highly focused, multi-dimensional innovation, integration of production and research, mutual promotion and advancement
The first Doppler Wind Lidar in China was successfully developed by our team.
Academician Wang Daheng, the “Father of Chinese Optics”, highly evaluated the team's R&D achievements.
Successful meteorological support for the Qingdao Olympic Sailing events and the landing of the 'Shenzhou VII' capsule was provided using a vehicle-mounted lidar system.
Successfully developed China's first airborne non-coherent Doppler wind lidar
Successfully developed China's first airborne marine lidar and completed flight verification experiments.
Developed the first Coherent Doppler Wind Lidar prototype in China.
Leice team successfully developed a multi-wavelength polarization Raman lidar, which was applied during China's Third Tibetan Plateau Scientific Expedition. The team also successfully developed China's first shipborne wind lidar.
Leice team successfully developed China's first unmanned airborne Doppler wind lidar.
Wu Songhua reported to Ma Kai, Vice Premier of the State Council, on the scientific research and application of LiDAR in the field of aviation meteorology.
Vice Premier Liu Yandong Inspected LIDAR Team's Innovative Research Results
The core team led by Prof. Wu Songhua founded Qingdao Leice Transient Technology Co., Ltd.
LEICE signed a contract with Academician Liu Wenqing of the Anhui Institute of Optics and Fine Mechanics, Chinese Academy of Sciences.
LEICE's core products provided meteorological support for the 70th Anniversary National Day Parade. The team successfully developed China's first Floating Buoy Wind Lidar System.
Leice team successfully developed a fully localized Raman temperature and humidity profile lidar system
LEICE was selected as one of the provincial new R&D organizations in 2021.
LEICE won the honorary title of “Shandong Youth Innovation Commando Team”.
The team successfully developed greenhouse gas flux lidar and particulate matter flux lidar.
LEICE successfully completed weather protection for the Opening Ceremony of the 2022 Beijing Winter Olympics and the Event.
LEICE successfully completed the meteorological protection for the 2022 Everest Expedition mission.
LEICE won the Second Prize for Scientific and Technological Progress from the Ministry of Education of China
LEICE was selected as a national specialized, special, and new 'small giant' enterprise.
LEICE successfully completed the weather protection for the 31st Universiade.
LEICE was honored as 2023 National Intellectual Property Advantageous Enterprise
LEICE successfully completed the construction of China's first three-dimensional Doppler Lidar monitoring network on the Qinghai-Tibetan Plateau.
LEICE successfully completed the service and support for the 19th Asian Games in Hangzhou.
RAMON was selected as a high-end brand cultivation enterprise in Shandong Province.
RAMON wind measurement LIDAR of three types, namely long, medium and short range, was approved for use with the national meteorological special technical equipment license, achieving excellent results.
RAMON successfully completed the meteorological protection task for the “14th Winter” event.
RAMON was successfully selected as a brand of “Remarkable Shandong”.
RAMON Development Case was selected for inclusion in the National Think Tank Report "The Road to Chinese Modernization and Development".
