Comparison of aerosol lidar retrieval methods for boundary layer height detection using ceilometer aerosol backscatter data

Abstract

Three algorithms for estimating the boundary layer heights are assessed: An aerosol gradient method, a cluster analysis method, and a Haar wavelet method. Over 40 daytime clear-sky radiosonde profiles are used to compare aerosol backscatter boundary layer heights retrieved by a Vaisala CL31 ceilometer. Overall good agreement between radiosonde-and aerosol-derived boundary layer heights was found for all methods. The cluster method was found to be particularly sensitive to noise in ceilometer signals and lofted aerosol layers (48.8ĝ€% of comparisons), while the gradient method showed limitations in low-Aerosol-backscatter conditions. The Haar wavelet method was demonstrated to be the most robust, only showing limitations in 22.5ĝ€% of all observations. Occasional differences between thermodynamically and aerosol-derived boundary layer heights were observed.