Recently, Qingdao Leice Transient Technology Co., Ltd. (hereinafter referred to as "Leice") received equity investment from CRRC Capital Management Co., Ltd. (hereinafter referred to as "CRRC Capital") in the CRRC Transformation and Upgrading Fund.

The research team led by Associate Professor Song Xiaoquan from Ocean University of China utilized the Wind3D 6000 Doppler wind lidar from Qingdao Leice to observe the characteristics of sea and land winds in the Huludao area and analyze their impact on ozone pollution. The related results were published in the Journal of Optics and selected as a highlight article in the Space, Atmospheric, Oceanic and Environmental Optics (SAME) special issue. The team uses LiDAR to capture the fine structure of sea and land winds, and combines it with a mesoscale WRF model to study the effect of sea and land wind circulation on local ozone pollution, providing new ideas for local meteorological pollution research.

Recently, after the procedures of unit declaration, district and city preliminary examination, centralized defense, field verification and meeting research, Qingdao Bureau of Human Resources and Social Security released the list of 2023 Qingdao Postdoctoral Stations (Bases) and Qingdao Expert Workstations to be recognized, and Qingdao Radiometrics Chuangxin Science and Technology Co.

Recently, Shandong Light Industry Collective Enterprises Association released “Announcement on the List of SME Innovation R&D Centers in Shandong Province in 2023”, and Qingdao Private Economy Development Bureau released “Announcement on the List of Qingdao One Enterprise One Technology R&D Centers in 2023”, Qingdao RAMSON Technology Co. Ltd. was honored to be on the list, and RAMSON LIDAR Innovation R&D Center of Atmospheric and Oceanic Laser Radar was awarded as Shandong Province Small and Medium-sized Enterprises Innovation R&D Center, and the company was awarded as Qingdao “One Enterprise, One Technology” R&D Center.

According to the monitoring of the Central Meteorological Observatory, Super Typhoon “Doksuri” made landfall along the coast of Jinjiang, Fujian Province at 9:55 am on July 28. The maximum wind force near the center was level-15 (50m/s), making it the strongest typhoon to make landfall in China this year. It’s the second strongest typhoon to make landfall in Fujian by complete observation records. During the typhoon's transit period, entrusted by the superior department, Leice team quickly allocated nearly 20 sets of land-based and offshore floating wind lidars in the waters of Fujian and near the landing points, achieving land and marine joint-observation for the first time. It successfully tracked and observed Typhoon "Doksuri", and obtained accurate, complete, and valuable three-dimensional observation data of the strong typhoon. Leice team overcame many difficulties such as time constraints, implementation difficulties, and equipment transportation difficulties, and completed the "almost impossible" task, receiving unanimous recognition and praise from customers.

The 31st Summer Universiade (hereinafter referred to as "Universiade") was officially opened in Chengdu on July 28. This is the third time that Chinese Mainland has hosted the Summer Universiade and the first time that western China has hosted the world Multi-sport event. In cooperation with Ocean University of China, Leice has deployed a number of wind lidars around the event venues and formed a special meteorological service team, which successfully provided the opening ceremony of the Universiade with fine three-dimensional wind field observation data and analysis services around the opening ceremony venues. The excellent work of Leice and the team of Ocean University of China has been highly recognized by the sponsor and the national meteorological department, which is also the team's meteorological support task for major world events after the 2022 Beijing Winter Olympic Games and the Winter Paralympic Games.

In order to accelerate the construction of a leading modern marine city and support the growth and strength of marine enterprises, through application, preliminary review and recommendation, expert evaluation, and inspection and publicity, Qingdao Ocean Development Bureau has recently identified 20 enterprises, including Qingdao Leice Transient Technology Co., Ltd., as "Qingdao High Growth Marine Enterprises" in 2022.

On July 14th, the Qingdao Municipal Bureau of Private Economic Development released the "Announcement on the List of the Fifth Batch of Specialized, Refined, and New" Little Giants "Enterprises in Qingdao and the Second Batch of Specialized, Refined, and New" Little Giants "Reviewed and Passed Enterprises". A total of 39 enterprises were listed in the city, and Qingdao Leice Transient Technology Co., Ltd. was included in the list, successfully winning the title of the Fifth Batch of National Specialized, Refined, and New "Little Giants" Enterprises.

On the morning of July 14, Meng Fanhui, director of the Ecological and Agrometeorological Service Center of the Qingdao Meteorological Bureau, Xu Xiaoliang, director of the Laoshan District Meteorological Bureau, Deng Yunchao, director of the Laixi Meteorological Bureau, and other leaders led the party members of the branch to visit Qingdao Leice Transient Technology Co., Ltd. to carry out theme party day activities and investigate the achievements of the enterprise's meteorological technology industry.

On July 5th, Song Mingjie, Vice Mayor of Qingdao, and his delegation visited Qingdao Leice Transient Technology Co., Ltd. for research and guidance, accompanied by relevant leaders from the Municipal Government Office, Municipal Bureau of Industry and Information Technology, Municipal Meteorological Bureau, and Municipal Science and Technology Bureau.

Recently, the achievements of the project "3D high-resolution remote sensing lidar and its application in wind field" jointly declared by Qingdao Leice Transient Technology Co., Ltd., Ocean University of China and the Meteorological Detection Center of China Meteorological Administration, stood out in the fierce national selection and won the second prize of the Ministry of Education for scientific and technological progress. This is the first time that the company has been awarded an important technology award by a national department, and it also represents the high recognition of the team's work in transforming industry, academia, and research achievements at the national level.

The project of "new methods, new technologies and engineering applications for wind-induced vibration control of long-span bridges in special areas" was jointly studied and completed by Chang'an University, CCCC Highway Planning and Design Institute Co., Ltd., Shaanxi transportation planning Design and Research Institute Co., Ltd., MCC Testing and Certification Co., Ltd. and other units. A new method for measuring wind field using 3D Doppler Lidar was proposed for the first time, revealing the spatial characteristics and distribution patterns of wind speed, direction, and wind profile in special areas. Practical 3D models of wind speed distribution in U-shaped and V-shaped canyons were established, and a method for determining wind parameters for bridge design in special areas was proposed.