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Use of neural networks in ground-based aerosol retrievals from multi-angle spectropolarimetric observations

Author: Di Noia, A. · Hasekamp, O.P. · Harten, G. van · Rietjens, J.H.H. · Smit, J.M. · Snik, F. · Henzing, J.S. · Boer, J. de · Keller, C.U. · Volten, H.
Publisher: Copernicus GmbH
Source:Atmospheric Measurement Techniques, 1, 8, 281-299
Identifier: 522511
doi: doi:10.5194/amt-8-281-2015
Keywords: Environment · Aerosol property · Algorithm · Atmospheric modeling · Ground-based measurement · Urban Development · Built Environment · Earth & Environment · UES - Urban Environment & Safety · ELSS - Earth, Life and Social Sciences


In this paper, the use of a neural network algorithm for the retrieval of the aerosol properties from ground-based spectropolarimetric measurements is discussed. The neural network is able to retrieve the aerosol properties with an accuracy that is almost comparable to that of an iterative retrieval. By using the outcome of the neural network as first guess in the iterative retrieval scheme, the accuracy of the retrieved fine- and coarse-mode optical thickness is further improved, while for the other parameters the improvement is small or absent. The resulting scheme (neural network + iterative retrieval) is compared to the original one (look-up table + iterative retrieval) on a set of simulated ground-based measurements, and on a small set of real observations carried out by an accurate ground-based spectropolarimeter. The results show that the use of a neural-network-based first guess leads to an increase in the number of converging retrievals, and possibly to more accurate estimates of the aerosol effective radius and complex refractive index.