论文信息 - Estimation of the likelihood function for non-linear optimization problems: Applications to the radiative transfer model in shallow water

Estimation of the likelihood function for non-linear optimization problems: Applications to the radiative transfer model in shallow water

Hyperspectral sensors provides informative data in many fields related to Earth observation. On the coastal zone, the inversion of radiative transfer models of the light has shown the ability to estimate parameters characterizing the water column. Particularly the water column depth, its concentration in non-algal particles, in phytoplankton, the bottom reflectance can be retrieved. Nevertheless the reliability of these estimations are difficult to clearly assess. In this paper a methodology based on interval arithmetic is presented to estimate the likelihood function. This allows to describe the behavior of this function around its maximum and therefore to evaluate the reliability of the solution. This methodology is applied to describe the influence of the noise level.

[1] Dariusz Stramski,et al. Variations in the light absorption coefficients of phytoplankton, nonalgal particles, and dissolved organic matter in coastal waters around Europe , 2003 .

[2] R. Baker Kearfott,et al. Introduction to Interval Analysis , 2009 .

[3] Dariusz Stramski,et al. Light scattering properties of marine particles in coastal and open ocean waters as related to the particle mass concentration , 2003 .

[4] C. Mobley,et al. Hyperspectral remote sensing for shallow waters. I. A semianalytical model. , 1998, Applied optics.

[5] C. Mobley. Light and Water: Radiative Transfer in Natural Waters , 1994 .

[6] C. Mobley,et al. Hyperspectral remote sensing for shallow waters. 2. Deriving bottom depths and water properties by optimization. , 1999, Applied optics.

[7] Wojciech M. Klonowski,et al. Intercomparison of shallow water bathymetry, hydro‐optics, and benthos mapping techniques in Australian and Caribbean coastal environments , 2011 .

[8] H. Claustre,et al. Variability in the chlorophyll‐specific absorption coefficients of natural phytoplankton: Analysis and parameterization , 1995 .

[9] Eric Walter,et al. Set inversion via interval analysis for nonlinear bounded-error estimation , 1993, Autom..

[10] Ronald R. Willis,et al. New Computer Methods for Global Optimization , 1990 .