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.

On August 12, 2020, the sub-forum of Ocean Observation and Detection Technology of World Ocean Science and Technology Forum was held in Qingdao. The forum was hosted by Academician Pan Defu of the Second Institute of Oceanography, Ministry of Natural Resources and Academician Liu Wenqing of the Hefei Institute of Physical Sciences, Chinese Academy of Sciences, Academician Liu Wenqing, Academician Jiang Xingwei of the National Center for Satellite Ocean Applications, Researcher Wang Juncheng of the Institute of Marine Instrumentation, Shandong Academy of Sciences, Professor Lai Ming of the College of Engineering, Ocean University of China, and Dr. Machendiranathan of Annamalai University, India, Dr. Machendiranathan of Annamalai University, India, Researcher Li Shuo of Shenyang Institute of Automation, Chinese Academy of Sciences and Prof. Shao Xiaopeng of School of Physics and Optoelectronic Engineering, Xi'an University of Electronic Science and Technology attended the opening ceremony and gave a keynote report.

Lately, Kunlong AG600, a large amphibious aircraft for fire fighting and water rescue, has made its first flight at sea in Qingdao. The doppler wind lidar developed by LEICE Transient provides meteorological support for the scientific research and first flight test at sea. LEICE's Wind3D 6000 wind lidar provides real-time three-dimensional wind field information of take-off and landing area, which makes up for the deficiency of existing offshore wind field detection ability and fully meets the monitoring requirements.

On June 28th 2020, the first commercial floating wind lidar system WindMast 350-MB was successfully deployed and put into operation in the sea area near Shantou, Guangdong Province, for exploration and development of wind resources in the South China Sea. It is the third floating wind lidar system deployed by Leice after installation in Zhejiang sea area and Shandong sea area.

From December 29th 2019 and February 8th 2020, Leice's floating wind lidar WindMast 350-MB got good scores during the test at sea early this year, with monthly system availability reaching up to 100% and MPDA(monthly post-processed data availability) reaching 98.58%~99.8%, even though the weather condition wasn't good as expected, which was overcast & raining for over half month, with max. wind speed over 17m/s. The WindMast 350-MB system has proved its reliability, stability and accurate lidar data analysis and processing ability under severe marine environment conditions.

Qingdao Leice Transient technology Co., Ltd. will provide meteorological observation of complex terrain 3D wind field in Yanqing competition area of Beijing Winter Olympic Games, entrusted by the China Meteorological Agency. This is the 3rd meteorological support task for Leice and Ocean University of China team to participate in world-class Olympic events since 2008 Beijing Olympic Games and 2010 Asian Games. Leice has successfully completed the equipment delivery and deployment, and officially started the "Winter Olympics" observation mode.

On December 29th 2019, Qingdao Leice Transient Technology Co., Ltd., together with Ocean University of China, Qingdao National Laboratory of Marine Science and Technology Pilot, Institute of Marine Instrumentation, Shandong Academy of Sciences, National Marine Environment Prediction Center of the Ministry of Natural Resources and other departments, developed and deployed the first domestic floating wind lidar (WindMast 350-MB) at sea area of Dongtou, Zhejiang Province.

Won the "outstanding contribution" award, due to its great efforts on supporting the 70th anniversary. From May 2019, Leice and Ocean University of China cooperated with the meteorological department to quickly complete the installation and layout of wind lidar in Zhengyangmen tower, realizing the real-time observation of wind speed, wind direction, turbulence intensity, vertical airflow, boundary layer height and back-scattering intensity profile from the ground to the altitude of 1 km. It makes up for the vacancy of vertical sounding data in the core area of the celebration, and combines the six ground wind field observation stations around Tian An Men Square to add double insurance for wind observation.

From April 10th to April 12th, 2019, the 11th China Meteorological Science and Technology Exhibition was successfully concluded in Shanghai International Sourcing Convention and Exhibition Center, Qingdao LEICE made a grand appearance with its full range of environmental meteorological LiDAR, and the meteorological industry leaders from all over the world gathered together to talk about the future development of the industry field.