Implementation of Deterministic Weather Forecasting Systems Based on Ensemble–Variational Data Assimilation at Environment Canada. Part I: The Global System

Implementation of Deterministic Weather Forecasting Systems Based on Ensemble–Variational Data Assimilation at Environment Canada. Part I: The Global System

A major set of changes was made to the Environment Canada global deterministic prediction system during the fall of 2014, including the replacement of four-dimensional variational data assimilation (4DVar) by four-dimensional ensemble-variational data assimilation (4DEnVar). The new system provides...

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Veröffentlicht in:Monthly weather review 2015-07, Vol.143 (7), p.2532-2559
Hauptverfasser: Buehner, Mark, McTaggart-Cowan, Ron, Beaulne, Alain, Charette, Cecilien, Garand, Louis, Heilliette, Sylvain, Lapalme, Ervig, Laroche, Stephane, Macpherson, Stephen R, Morneau, Josee
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Schlagworte:
Accuracy
Airborne observation
Aircraft
Aircraft observations
Bias
Channels
Data assimilation
Data collection
Digital filters
Experiments
Forecast accuracy
Global positioning systems
GPS
Horizontal
Mathematical models
Meteorology
Quality control
R&D
Radiance
Radiosondes
Research & development
Satellites
Spatial data
Studies
Weather forecasting
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container_end_page 2559
container_issue 7
container_start_page 2532
container_title Monthly weather review
container_volume 143
creator Buehner, Mark
McTaggart-Cowan, Ron
Beaulne, Alain
Charette, Cecilien
Garand, Louis
Heilliette, Sylvain
Lapalme, Ervig
Laroche, Stephane
Macpherson, Stephen R
Morneau, Josee
description A major set of changes was made to the Environment Canada global deterministic prediction system during the fall of 2014, including the replacement of four-dimensional variational data assimilation (4DVar) by four-dimensional ensemble-variational data assimilation (4DEnVar). The new system provides improved forecast accuracy relative to the previous system, based on results from two sets of two-month data assimilation and forecast experiments. The improvements are largest at shorter lead times, but significant improvements are maintained in the 120-h forecasts for most regions and vertical levels. The improvements result from the combined impact of numerous changes, in addition to the use of 4DEnVar. These include an improved treatment of radiosonde and aircraft observations, an improved radiance bias correction procedure, the assimilation of ground-based GPS data, a doubling of the number of assimilated channels from hyperspectral infrared sounders, and an improved approach for initializing model forecasts. Because of the replacement of 4DVar with 4DEnVar, the new system is also more computationally efficient and easier to parallelize, facilitating a doubling of the analysis increment horizontal resolution. Replacement of a full-field digital filter with the 4D incremental analysis update approach, and the recycling of several key variables that are not directly analyzed significantly reduced the model spinup during both the data assimilation cycle and in medium-range forecasts.
doi_str_mv 10.1175/MWR-D-14-00354.1
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source American Meteorological Society; EZB-FREE-00999 freely available EZB journals; Alma/SFX Local Collection
subjects Accuracy
Airborne observation
Aircraft
Aircraft observations
Bias
Channels
Data assimilation
Data collection
Digital filters
Experiments
Forecast accuracy
Global positioning systems
GPS
Horizontal
Mathematical models
Meteorology
Quality control
R&D
Radiance
Radiosondes
Research & development
Satellites
Spatial data
Studies
Weather forecasting
title Implementation of Deterministic Weather Forecasting Systems Based on Ensemble–Variational Data Assimilation at Environment Canada. Part I: The Global System
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