After 4 years hard work, an airborne detecting system which could obtain regional environment atmospheric pollution constituents rapidly is successfully developed at Anhui Institute of Optics and Fine Mechanics. This achievement passed the Appraisal for Scientific and Technical Fruitful Results organized by Anhui province science and technology achievement transformation service center on May 6th.
The airborne detecting system for environment atmospheric constituents is one of ten playloads of aerial remote sensing system which is a major national science and technology infrastructure project. This system consists of 4 subsystems which are atmospheric environment LIDAR, differential optical absorption spectroscopy, multi-angle polarimetric radiometer and main control manager.
This achievement not only includes the first dual-wavelength polarization aerial remote sensing LIDAR which could detect aerosol and cloud, fills the domestic blank of quantitative detection of trace gas distribution and multi-angle polarimetric detection, but also realizes the three-dimensional measurement combining point, line and plane for multi-angle airborne aerosol and trace gas from ultraviolet to visible and infrared. This can be used to measure regional, multiple and disastrous atmospheric pollution, and provides important technical support for studying the quantitative distribution of aerosol and evolution of atmospheric environmental quality.
The appraisal committee considered that data from this achievement have been used in the Institute of Remote Sensing and Digital Earth and Tianjin environment monitoring center, made good social benefits, and played a leading role in promoting the development of atmospheric environment airborne remote sensing in our country. This achievement has complex system, big technique difficulty, high integration density and good promotion prospects. It has reached the advanced level of domestic and abroad.
Project leaders made presentation