Core Viewpoint - The cloud and plateau quasi-stationary front research is crucial for improving weather forecasting accuracy in Southwest China and addressing severe weather challenges such as low-temperature rain and snow, as well as strong convective weather [2][12]. Group 1: Experiment Overview - The cloud and plateau quasi-stationary front airborne comprehensive observation experiment was conducted from January 15 to March 1 at the Yunnan Meteorological Bureau's experimental base in Mile City, Yunnan Province [1]. - The experiment utilized self-developed high-altitude drone systems and ground-based remote sensing vertical observation equipment to collect meteorological data at various heights and locations of the front [1][5]. - The base has established a comprehensive observation system combining "point-line-surface" to study the fine structure characteristics and evolution of the quasi-stationary front [5][12]. Group 2: Research Significance - The research on the quasi-stationary front is expected to enhance the understanding of its vertical structure and movement patterns, particularly during the winter when its activity is most pronounced [5][10]. - The findings from this research have been integrated into Yunnan's intelligent forecasting platform, contributing to the "1262" refined forecasting and emergency response mechanism [7][12]. - The experiment aims to provide data support for improving monitoring and forecasting capabilities for severe weather in the region [12]. Group 3: Future Directions - The research team plans to expand the experiment's scope by deploying ground-based remote sensing vertical observation equipment in five key areas affected by the quasi-stationary front [10]. - There is an emphasis on collaboration with experts and scholars to enhance observation experiments, mechanism research, and forecasting technology development [10][12].