Retrieval of cloud microphysical parameters from INSAT-3D: a feasibility study using radiative transfer simulations

John Jinya; Paul Shukla Bipasha

doi:10.1117/12.2222779

5 May 2016 Retrieval of cloud microphysical parameters from INSAT-3D: a feasibility study using radiative transfer simulations

John Jinya, Paul Shukla Bipasha

Author Affiliations +

Proceedings Volume 9876, Remote Sensing of the Atmosphere, Clouds, and Precipitation VI; 98760E (2016) https://doi.org/10.1117/12.2222779
Event: SPIE Asia-Pacific Remote Sensing, 2016, New Delhi, India

Abstract

Clouds strongly modulate the Earths energy balance and its atmosphere through their interaction with the solar and terrestrial radiation. They interact with radiation in various ways like scattering, emission and absorption. By observing these changes in radiation at different wavelength, cloud properties can be estimated. Cloud properties are of utmost importance in studying different weather and climate phenomena. At present, no satellite provides cloud microphysical parameters over the Indian region with high temporal resolution. INSAT-3D imager observations in 6 spectral channels from geostationary platform offer opportunity to study continuous cloud properties over Indian region. Visible (0.65 μm) and shortwave-infrared (1.67 μm) channel radiances can be used to retrieve cloud microphysical parameters such as cloud optical thickness (COT) and cloud effective radius (CER). In this paper, we have carried out a feasibility study with the objective of cloud microphysics retrieval. For this, an inter-comparison of 15 globally available radiative transfer models (RTM) were carried out with the aim of generating a Look-up- Table (LUT). SBDART model was chosen for the simulations. The sensitivity of each spectral channel to different cloud properties was investigated. The inputs to the RT model were configured over our study region (50°S - 50°N and 20°E - 130°E) and a large number of simulations were carried out using random input vectors to generate the LUT. The determination of cloud optical thickness and cloud effective radius from spectral reflectance measurements constitutes the inverse problem and is typically solved by comparing the measured reflectances with entries in LUT and searching for the combination of COT and CER that gives the best fit. The products are available on the website www.mosdac.gov.in

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John Jinya and Paul Shukla Bipasha "Retrieval of cloud microphysical parameters from INSAT-3D: a feasibility study using radiative transfer simulations", Proc. SPIE 9876, Remote Sensing of the Atmosphere, Clouds, and Precipitation VI, 98760E (5 May 2016); https://doi.org/10.1117/12.2222779

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