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Computation of the parametric derivatives of polarized radiation and the solution of inverse atmospheric optics problems
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S.A. Ukhinov
and D. I. Yurkov
Published/Copyright:
October 9, 2014
Abstract
- The authors consider problems of calculating the derivatives of polarized solar radiation parameters and the solution of inverse atmospheric optics problems, using the modified double local estimate of the Monte Carlo method in ground-based observations. We study the applicability of the Newton-Kantorovitch iterative process and propose a method based on minimizing the square of the difference norm in the calculated and observed characteristics of polarized radiation.
Published Online: 2014-10-9
Published in Print: 2002-6-1
© 2014 by Walter de Gruyter Berlin/Boston
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- Difference scheme for the system of equations of one-dimensional dynamics of a nonlinear thermoviscoelastic body of the Voigt type
- Chaotic attractors of atmospheric models
- Computation of the parametric derivatives of polarized radiation and the solution of inverse atmospheric optics problems
- On upper and lower bounds of the error of the difference solution to the Dirichlet problem for the Laplace equation in a cylinder
Articles in the same Issue
- Contents
- Difference scheme for the system of equations of one-dimensional dynamics of a nonlinear thermoviscoelastic body of the Voigt type
- Chaotic attractors of atmospheric models
- Computation of the parametric derivatives of polarized radiation and the solution of inverse atmospheric optics problems
- On upper and lower bounds of the error of the difference solution to the Dirichlet problem for the Laplace equation in a cylinder