Generalized eikonal approximation for fast retrieval of particle size distribution in spectral extinction technique

Abstract: In retrieving particle size distribution from spectral extinction data, a critical issue is the calculation of extinction efficiency, which affects the accuracy and rapidity of the whole retrieval. The generalized eikonal approximation (GEA) method, used as an alternative to the rigorous Mie theory, is introduced for retrieval of the unparameterized shape-independent particle size distribution (PSD). To compute the extinction efficiency more efficiently, the combination of GEA method and Mie theory is adopted … Show more

“…There are parametric and nonparametric approaches to solve this problem. The non-parametric approaches usually require large numbers of incident lasers with different wavelengths and the corresponding spectral complex refractive indices of the aerosols must be known prior to solving the discretized equations (Wang, Sun, & Li, 2012). In contrast, parametric approaches are based on assumed and approximated distribution functions, which only require several parameters of the distribution functions, so less information about the aerosols is needed.…”

Retrieval of aerosol size distribution using improved quantum-behaved particle swarm optimization on spectral extinction measurements

“…There are parametric and nonparametric approaches to solve this problem. The non-parametric approaches usually require large numbers of incident lasers with different wavelengths and the corresponding spectral complex refractive indices of the aerosols must be known prior to solving the discretized equations (Wang, Sun, & Li, 2012). In contrast, parametric approaches are based on assumed and approximated distribution functions, which only require several parameters of the distribution functions, so less information about the aerosols is needed.…”

Retrieval of aerosol size distribution using improved quantum-behaved particle swarm optimization on spectral extinction measurements

“…This means that in case of error-free measurements, the scattering coefficient profile of the weighted sum of B-splines should be equal to the measured scattering coefficient profile μs(λ). After discretization, the resulting system of equations was solved by non-negative least squares with Tikhonov regularization 13,14 .…”

“…However, the extra flexibility might introduce artefacts e.g. oscillations or extra peaks 14 . This is illustrated in Figure 2b.…”

Estimation of particle size distribution from Vis/NIR scattering measurements

“…When a parallel monochromatic light beam of intensity I 0 travels through a suspension of particle system, scattering and absorption lead to the attenuation of the transmitted light. When multiple scattering and interaction processes are neglected, the transmitted light intensity I with the incident wavelength λ can be calculated as [11] ln…”

Retrieval of spherical particle size distribution using ant colony optimization algorithm