NUMERICAL EXPERIMENTS ON MULTI-LEVEL STATISTICAL ESTIMATION OF DYNAMIC BALANCE CONSTRAINTS IN GRAPES-3DVAR

This paper further explores the estimating and expressing of dynamic balance constraints using statistical methods in GRAPES-3DVAR (Version GM). Unlike the single-level scheme which only considers the coupling be- tween mass and wind at one level, the multi-level scheme considers the coupling betwee...

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Published inJournal of Tropical Meteorology Vol. 21; no. 4; pp. 417 - 427
Main Author 王瑞春 龚建东 张林 薛谌彬
Format Journal Article
LanguageEnglish
Published Guangzhou Guangzhou Institute of Tropical & Marine Meteorology 01.12.2015
Subjects
Experiments
Multivariate analysis
Regression analysis
Statistical analysis
Statistical methods
Variables
大气科学
方法
气象学
热带气象
理论
Online AccessGet full text
ISSN1006-8775
DOI10.16555/j.1006-8775.2015.04.010

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Summary:This paper further explores the estimating and expressing of dynamic balance constraints using statistical methods in GRAPES-3DVAR (Version GM). Unlike the single-level scheme which only considers the coupling be- tween mass and wind at one level, the multi-level scheme considers the coupling between their vertical profiles and cal- culates the balanced mass field at each layer using the rotational wind at all model levels. A reformed ridge regression method is used in the new scheme to avoid the multicollinearity problem and reduce the noises caused by unbalanced mesoscale disturbances. The results of numerical experiments show that the new scheme can get more reasonable verti- cal mass field, reduce the magnitude of the adjustment by the initialization, and improve the potential temperature anal- ysis performance. Furthermore, the results of forecast verification in January (winter) and July (summer) both confirm that the new scheme can significantly improve the temperature forecast accuracy and bring slight positive effects to the pressure and wind forecast.
Bibliography:dynamic balance constraints; 3DVAR; GRAPES; numerical experiment
This paper further explores the estimating and expressing of dynamic balance constraints using statistical methods in GRAPES-3DVAR (Version GM). Unlike the single-level scheme which only considers the coupling be- tween mass and wind at one level, the multi-level scheme considers the coupling between their vertical profiles and cal- culates the balanced mass field at each layer using the rotational wind at all model levels. A reformed ridge regression method is used in the new scheme to avoid the multicollinearity problem and reduce the noises caused by unbalanced mesoscale disturbances. The results of numerical experiments show that the new scheme can get more reasonable verti- cal mass field, reduce the magnitude of the adjustment by the initialization, and improve the potential temperature anal- ysis performance. Furthermore, the results of forecast verification in January (winter) and July (summer) both confirm that the new scheme can significantly improve the temperature forecast accuracy and bring slight positive effects to the pressure and wind forecast.
WANG Rui-chun , GONG Jian-dong , ZHANG Lin , XUE Chen-bin (1. School of Atmospheric Science, Nanjing University of Information Science & Technology, Nanjing 210044 China; 2. National Meteorological Center, Beijing 100081 China; 3. Jiangxi Meteorological Observatory, Nanchang 330046 China)
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ISSN:1006-8775
DOI:10.16555/j.1006-8775.2015.04.010