All‐sky satellite data assimilation at operational weather forecasting centres

This article reviews developments towards assimilating cloud‐ and precipitation‐ affected satellite radiances at operational forecasting centres. Satellite data assimilation is moving beyond the “clear‐sky” approach that discards any observations affected by cloud. Some centres already assimilate cl...

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Published in	Quarterly journal of the Royal Meteorological Society Vol. 144; no. 713; pp. 1191 - 1217
Main Authors	Geer, Alan J., Lonitz, Katrin, Weston, Peter, Kazumori, Masahiro, Okamoto, Kozo, Zhu, Yanqiu, Liu, Emily Huichun, Collard, Andrew, Bell, William, Migliorini, Stefano, Chambon, Philippe, Fourrié, Nadia, Kim, Min‐Jeong, Köpken‐Watts, Christina, Schraff, Christoph
Format	Journal Article
Language	English
Published	Chichester, UK John Wiley & Sons, Ltd 01.04.2018 Wiley Subscription Services, Inc
Subjects	all‐sky Bayesian analysis cloud and precipitation Clouds Cyclones Data assimilation Data collection Discards Forecasting Geostationary satellites Humidity Hurricanes infrared Low clouds Mathematical models Meteorological satellites microwave NWP Precipitation Probability theory Radiative transfer Remote sensing satellite Satellite data Satellite observation Satellites Spaceborne remote sensing Tropical climate Tropical cyclones Weather forecasting
Online Access	Get full text
ISSN	0035-9009 1477-870X
DOI	10.1002/qj.3202

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Abstract	This article reviews developments towards assimilating cloud‐ and precipitation‐ affected satellite radiances at operational forecasting centres. Satellite data assimilation is moving beyond the “clear‐sky” approach that discards any observations affected by cloud. Some centres already assimilate cloud‐ and precipitation‐affected radiances operationally and the most popular approach is known as “all‐sky,” which assimilates all observations directly as radiances, whether they are clear, cloudy or precipitating, using models (for both radiative transfer and forecasting) that are capable of simulating cloud and precipitation with sufficient accuracy. Other frameworks are being tried, including the assimilation of humidity retrieved from cloudy observations using Bayesian techniques. Although the all‐sky technique is now proven for assimilation of microwave radiances, it has yet to be demonstrated operationally for infrared radiances, though several centres are getting close. Assimilating frequently available all‐sky infrared observations from geostationary satellites could give particular benefit for short‐range forecasting. More generally, assimilating cloud‐ and precipitation‐affected satellite observations improves forecasts in the medium range globally and can also improve the analysis and shorter‐range forecasting of otherwise poorly observed weather phenomena as diverse as tropical cyclones and wintertime low cloud. This article reviews developments towards assimilating cloud‐ and precipitation‐affected satellite radiances at operational forecasting centres. Satellite data assimilation is moving beyond “clear‐sky” towards assimilating all observations directly as radiances, whether they are clear, cloudy or precipitating. This is known as the “all‐sky” approach and it improves global forecasts and can improve the analysis and shorter‐range forecasts of otherwise poorly‐observed weather phenomena as diverse as tropical cyclones and wintertime low cloud.
AbstractList	This article reviews developments towards assimilating cloud‐ and precipitation‐ affected satellite radiances at operational forecasting centres. Satellite data assimilation is moving beyond the “clear‐sky” approach that discards any observations affected by cloud. Some centres already assimilate cloud‐ and precipitation‐affected radiances operationally and the most popular approach is known as “all‐sky,” which assimilates all observations directly as radiances, whether they are clear, cloudy or precipitating, using models (for both radiative transfer and forecasting) that are capable of simulating cloud and precipitation with sufficient accuracy. Other frameworks are being tried, including the assimilation of humidity retrieved from cloudy observations using Bayesian techniques. Although the all‐sky technique is now proven for assimilation of microwave radiances, it has yet to be demonstrated operationally for infrared radiances, though several centres are getting close. Assimilating frequently available all‐sky infrared observations from geostationary satellites could give particular benefit for short‐range forecasting. More generally, assimilating cloud‐ and precipitation‐affected satellite observations improves forecasts in the medium range globally and can also improve the analysis and shorter‐range forecasting of otherwise poorly observed weather phenomena as diverse as tropical cyclones and wintertime low cloud. This article reviews developments towards assimilating cloud‐ and precipitation‐ affected satellite radiances at operational forecasting centres. Satellite data assimilation is moving beyond the “clear‐sky” approach that discards any observations affected by cloud. Some centres already assimilate cloud‐ and precipitation‐affected radiances operationally and the most popular approach is known as “all‐sky,” which assimilates all observations directly as radiances, whether they are clear, cloudy or precipitating, using models (for both radiative transfer and forecasting) that are capable of simulating cloud and precipitation with sufficient accuracy. Other frameworks are being tried, including the assimilation of humidity retrieved from cloudy observations using Bayesian techniques. Although the all‐sky technique is now proven for assimilation of microwave radiances, it has yet to be demonstrated operationally for infrared radiances, though several centres are getting close. Assimilating frequently available all‐sky infrared observations from geostationary satellites could give particular benefit for short‐range forecasting. More generally, assimilating cloud‐ and precipitation‐affected satellite observations improves forecasts in the medium range globally and can also improve the analysis and shorter‐range forecasting of otherwise poorly observed weather phenomena as diverse as tropical cyclones and wintertime low cloud. This article reviews developments towards assimilating cloud‐ and precipitation‐affected satellite radiances at operational forecasting centres. Satellite data assimilation is moving beyond “clear‐sky” towards assimilating all observations directly as radiances, whether they are clear, cloudy or precipitating. This is known as the “all‐sky” approach and it improves global forecasts and can improve the analysis and shorter‐range forecasts of otherwise poorly‐observed weather phenomena as diverse as tropical cyclones and wintertime low cloud.
Author	Bell, William Collard, Andrew Geer, Alan J. Lonitz, Katrin Kazumori, Masahiro Migliorini, Stefano Okamoto, Kozo Liu, Emily Huichun Fourrié, Nadia Kim, Min‐Jeong Schraff, Christoph Weston, Peter Zhu, Yanqiu Chambon, Philippe Köpken‐Watts, Christina
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PublicationTitle	Quarterly journal of the Royal Meteorological Society
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Snippet	This article reviews developments towards assimilating cloud‐ and precipitation‐ affected satellite radiances at operational forecasting centres. Satellite...
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SubjectTerms	all‐sky Bayesian analysis cloud and precipitation Clouds Cyclones Data assimilation Data collection Discards Forecasting Geostationary satellites Humidity Hurricanes infrared Low clouds Mathematical models Meteorological satellites microwave NWP Precipitation Probability theory Radiative transfer Remote sensing satellite Satellite data Satellite observation Satellites Spaceborne remote sensing Tropical climate Tropical cyclones Weather forecasting
Title	All‐sky satellite data assimilation at operational weather forecasting centres
URI	https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fqj.3202 https://www.proquest.com/docview/2110265602
Volume	144
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