Spatial-Temporal Characterization of Atmospheric Aerosols via Airborne Spectral Imaging and Growing Hierarchical Self-Organizing Maps
Neural network analysis based on Growing Hierarchical Self-Organizing Map(GHSOM)is used to examine Spatial-Temporal characteristics in Aerosol Optical Depth(AOD),(A)ngstr(o)m Exponent((A)E)and Precipitation Rate(PR)over selected East African sites from 2000 to 2014.The selected sites of study are Nairobi(1°S,36°E),Mbita(0°S,34°E),Mau Forest(0.0°-0.6°S; 35.1°E-35.7°E),Malindi(2°S,40°E),Mount Kilimanjaro(3°S,37°E)and Kampala(0°N,32.1°E).GHSOM analysis reveals a marked spatial variability in AOD and (A)E that is associated to changing PR,urban heat islands,diffusion,direct emission,hygroscopic growth and their scavenging from the atmosphere specific to each site.Furthermore,spatial variability in AOD,(A)E and PR is distinct since each variable corresponds to a unique level of classification.On the other hand,GHSOM algorithm efficiently discriminated by means of clustering between AOD,(A)E and PR during Long and Short rain spells and dry spell over each variable emphasizing their temporal evolution.The utilization of GHSOM therefore confirms the fact that regional aerosol characteristics are highly variable be it spatially or temporally and as well modulated by PR received over each variable.
Aerosol Optical Depth (A)ngstr(o)m Exponent Neural Network Satellite Spectral Imaging Precipitation Rate East African Atmosphere
John W.Makokha Jared O.Odhiambo
Department of Science Technology and Engineering,Kibabii University,Bungoma,Kenya
国际会议
the 8th Internal Conference on Geology and Geophysics(ICGG2018)(第8届地质和地球物理学国际会议)
成都
英文
101-110
2018-06-01(万方平台首次上网日期,不代表论文的发表时间)