On the morning of August 20, Hui Xinan, Deputy Secretary of Qingdao Municipal Party Committee, and his party visited Qingdao Leice Transient Technology Co.,Ltd. accompanied by Mr. Lv Peng, Director of Qingdao Science and Technology Bureau, Mr. Wang Feng, Mayor of Laoshan District, Mr. Liu Zhongxu, Director of Office of District Party Committee, and Mr. Li Weibo, Director of District Science and Innovation Committee. The responsible person of the company reported in detail about the R&D of laser radar remote sensing products, collaborative innovation between industry, academia and research institutes, industrialization application and the future development plan of the company to Mr. Huixinan and his team.

In the afternoon of July 29, 2021, Qingdao Innovative Application Laboratory and Scenario Application Laboratory Award Promotion Meeting was held in the Conference Center of Municipal Authorities. After several rounds of evaluation by the expert group, “Qingdao Remote Sensing Monitoring Technology Innovation and Application Laboratory” led by Qingdao Leice Transient Technology Co.,Ltd. stood out among many other applicants and was successfully selected as one of the five “Innovation and Application Laboratories” approved this time. Qingdao Municipal Party Committee Standing Committee, Vice Mayor Xue Qingguo attended the ceremony and awarded the license to the enterprise. Wang Qingchun, Deputy Secretary General of the Municipal Government, Li Gang, Director of the Municipal Development and Reform Commission and Secretary of the Party Group, and Li Hongbing, Secretary of the Party Group and Director of the Municipal Bureau of Finance, and other leaders attended the awarding and promotion ceremony.

LEICE's Doppler Lidars contributed to the Field Measurement and Analysis of Atmospheric Boundary Layer Wind Field in the Vibration Event of SEG Building.

On the morning of July 6, Qingdao Ecological Environment Monitoring Center of Shandong Province (hereinafter referred to as "Qingdao Monitoring Center") and the Department of Information Science and Engineering of Ocean University of China (established by the School of Physics and Optoelectronic Engineering, School of Electronic Engineering, School of Computer Science and Technology, and the College of Technology, hereinafter referred to as the "Department of Information Science of Haida University") signed a cooperation agreement to jointly build an "Innovative Application Center for Ecological Environment Monitoring" in Qingdao.

Yesterday LEICE attended the virtual seminar between OUC and DTU, about the Doppler LiDAR activities in wind energy. OUC and LEICE team introduced its latest research results and technology development of doppler wind lidars, water vapor/clouds/aerosol raman lidar and ocean lidar. The DTU also presented its new achievements on wind resource survey and assessment, wind field detection of complex terrain, dynamic monitoring of turbine wake, atmospheric turbulence detection and analysis.

Estimation of Turbulence Parameters in Atmospheric Boundary Layer Based on Doppler Lidar

In the afternoon of May 24th, Zhao Haoshi, deputy secretary of municipal party committee and mayor of Laoshan District, accompanied by Sun Haisheng, secretary of Laoshan District Party Committee and Wang Feng, mayor of Laoshan District, visited Qingdao Leice Transient Technology Co.,Ltd. Mr. Li Rongzhong, General Manager of the company, and Mr. Tian Xiaoxu, Assistant Chairman of the Board of Directors, reported in detail to Mayor Zhao Haizhi and his entourage about the “New Generation of Doppler Environmental Meteorological Lidar” technology and product research and development, collaborative innovation between industry, academia and research institutes, industrial application and the future development plan of the company.

On January 27, 2021, Sun Haisheng, Secretary of Laoshan District Committee of Qingdao, Zhuang Jinjie, Standing Committee of Laoshan District Committee and Minister of Organization Department, Liu Zhongxu, Standing Committee of Laoshan District Committee and Director of Office of Laoshan District Committee and his party visited LEICE to investigate and research the company, accompanied by the relevant comrades from Laoshan District Science and Innovation Committee, Human Resources and Social Affairs Bureau, and Juphon Science and Innovation. The research group visited the newly constructed office and production environment of LEICE in Academician Intelligence Valley Phase II, and exchanged ideas with the core founding team.

On January 17th, “2021 Qingdao Laoshan District Entrepreneurs and Industry Leaders Conference” was held in Qingdao International Convention and Exhibition Center. With the theme of “joining hands with gold partners to create a new future in Laoshan”, the conference will vigorously carry forward the entrepreneurial spirit, stimulate the innovation vitality and entrepreneurial enthusiasm of talents, create a strong atmosphere of respect and service for entrepreneurs and industry leaders, and comprehensively create a better future for government and enterprises to join hands for mutual benefit and win-win situation.

On November 24, the national commendation meeting for model workers and advanced workers was held in the Great Hall of the people in Beijing. Academician Liu Wenqing, director of Anhui Institute of Optics and mechanics, Chinese Academy of Sciences and chief scientist of Qingdao Leice Transient technology Co., Ltd., was awarded the title of "national advanced worker" and was commended at the meeting.

On October 29th 2020, Professor Wu Songhua, the founder and chairman of Qingdao Lecice Transient Technology Co., Ltd., stood out from more than 1,000 technology entrepreneurs in Qingdao and was awarded the "2020 Qingdao Top Ten Outstanding Entrepreneurs of Science and Technology".

One more Wind3D 10K long-range scanning lidar has been accepted with full satisfaction by Lanzhou University (SACOL), deployed in Gansu province as the 6th units of wind lidars. It's a great remote sensing tool for fine measurement of three dimensional wind field and aerosol optical parameters in atmospheric boundary layer and troposphere.