Welcome to pyOSOAA’s documentation!

pyOSOAA is a python interface for the Ocean Successive Orders with Atmosphere - Advanced (OSOAA) radiative transfer. The OSOAA is a radiative transfer code developed in the Sorbonne Université by Pr. Malik Chami group and supported by the CNES.

The coded is based in the successive orders of scattering method and the OSOA code developed by Malik Chami in 2001 that included the computation of the radiance and polarization for the ocean-atmosphere system with a flat surface.

The OSOAA code simulates:

• Atmospheric and sea profiles: The atmosphere can be and sea profiles can be defined by the user both for the molecules and aerosol in the atmosphere and the water column, chlorophyll and mineral-like particles in the sea. Detritus and yellow substance absorption can also be modelled.
• Aerosol models: Aerosol models include WMO, LND, Junge mono-modal, bimodal LND and Shettle and Fenn.
• Hydrosol models: For phytoplankton and mineral-like particles including scattering and absorbing properties.
• Sea surface interface: Both for a flat surface or by a rough surface using Cox and Munk model.

The pyOSOAA interface aims to incorporate the creation of run scripts and parsing of output results for the OSOAA model. It also incorporates helpers to perform common tasks like calculating the radiance for a certain band instead of a wavelength or running the model for multiple wavelengths.

This code was inspired by py6S by Robin Wilson.

Table of contents

Contents:

• Installation
  • OSOAA installation
  • pyOSOAA installation
  • pyOSOAA test
• Case study: Intercomparison between the different atmospheric components
  • Introduction
  • Simple radiative transfer equation
  • Geometric configuration
  • Black ocean
  • Glint reflectance
  • Molecular scattering
  • Aerosol scattering
  • Total scattering

Indices and tables

• Index
• Search Page