Scaling Observation Error for Optimal Assimilation of CCI SST Data into a Regional HYCOM EnOI System

South Africa currently possesses no operational ocean forecasting system for the purpose of predicting ocean state variables including temperature,salinity and velocity. Substantial initial efforts towards this goal have been made and resulted in a system using a regional Hybrid Coordinate Ocean Mod...

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Main Authors: Veitch, J., Counillon, F., Akella, S., Backeberg, B. C., Rouault, Mathieu, Luyt, Hermann
Format: Other/Unknown Material
Language:unknown
Published: 2020
Subjects:
Geosciences (General)
Sea ice
Online Access:http://hdl.handle.net/2060/20200002164
id ftnasantrs:oai:casi.ntrs.nasa.gov:20200002164
record_format openpolar
spelling ftnasantrs:oai:casi.ntrs.nasa.gov:20200002164 2023-05-15T18:18:35+02:00 Scaling Observation Error for Optimal Assimilation of CCI SST Data into a Regional HYCOM EnOI System Veitch, J. Counillon, F. Akella, S. Backeberg, B. C. Rouault, Mathieu Luyt, Hermann Unclassified, Unlimited, Publicly available March 10, 2020 application/pdf http://hdl.handle.net/2060/20200002164 unknown Document ID: 20200002164 http://hdl.handle.net/2060/20200002164 Copyright, Use by or on behalf of the U.S. Government permitted CASI Geosciences (General) GSFC-E-DAA-TN78980 Nansen Tutu Center Anniversary Symposium; Mar 10, 2020 - Mar 12, 2020; Cape Town; South Africa 2020 ftnasantrs 2020-04-18T22:48:05Z South Africa currently possesses no operational ocean forecasting system for the purpose of predicting ocean state variables including temperature,salinity and velocity. Substantial initial efforts towards this goal have been made and resulted in a system using a regional Hybrid Coordinate Ocean Model (HYCOM) along with the Ensemble Optimal Interpolation (EnOI)assimilation scheme. Assimilating only sea surface temperature (SST) observations from the Operational Sea Surface Temperature and Sea Ice Analysis (OSTIA) product into the system resulted in a degraded forecast. Aiming to address this, Climate Change Initiative (CCI) SSTs are assimilated into the system in an effort to improve the forecast skill. Observation errors in the assimilated product are used in the EnOI to determine whether more confidence should be placed in the model or observations in producing the analysis, but overconfidence in observations can shock the model and result in failure. To tweak the impact of the assimilation, a scaling factor is applied in the assimilation code. A scaling factor of 25 was found to produce a favourable result with lowest mean root mean square error (RMSE;1.098C) between the model and observations over time. Postulating the error to be overconfident, a floor value is introduced in order to set a minimum value for the observation error thereby reducing confidence in the observations. These experiments fared less favourably with a floor value of 0.5 and a scaling factor of 15 producing the best mean RMSE (1.118C). Other/Unknown Material Sea ice NASA Technical Reports Server (NTRS)
institution Open Polar
collection NASA Technical Reports Server (NTRS)
op_collection_id ftnasantrs
language unknown
topic Geosciences (General)
spellingShingle Geosciences (General)
Veitch, J.
Counillon, F.
Akella, S.
Backeberg, B. C.
Rouault, Mathieu
Luyt, Hermann
Scaling Observation Error for Optimal Assimilation of CCI SST Data into a Regional HYCOM EnOI System
topic_facet Geosciences (General)
description South Africa currently possesses no operational ocean forecasting system for the purpose of predicting ocean state variables including temperature,salinity and velocity. Substantial initial efforts towards this goal have been made and resulted in a system using a regional Hybrid Coordinate Ocean Model (HYCOM) along with the Ensemble Optimal Interpolation (EnOI)assimilation scheme. Assimilating only sea surface temperature (SST) observations from the Operational Sea Surface Temperature and Sea Ice Analysis (OSTIA) product into the system resulted in a degraded forecast. Aiming to address this, Climate Change Initiative (CCI) SSTs are assimilated into the system in an effort to improve the forecast skill. Observation errors in the assimilated product are used in the EnOI to determine whether more confidence should be placed in the model or observations in producing the analysis, but overconfidence in observations can shock the model and result in failure. To tweak the impact of the assimilation, a scaling factor is applied in the assimilation code. A scaling factor of 25 was found to produce a favourable result with lowest mean root mean square error (RMSE;1.098C) between the model and observations over time. Postulating the error to be overconfident, a floor value is introduced in order to set a minimum value for the observation error thereby reducing confidence in the observations. These experiments fared less favourably with a floor value of 0.5 and a scaling factor of 15 producing the best mean RMSE (1.118C).
format Other/Unknown Material
author Veitch, J.
Counillon, F.
Akella, S.
Backeberg, B. C.
Rouault, Mathieu
Luyt, Hermann
author_facet Veitch, J.
Counillon, F.
Akella, S.
Backeberg, B. C.
Rouault, Mathieu
Luyt, Hermann
author_sort Veitch, J.
title Scaling Observation Error for Optimal Assimilation of CCI SST Data into a Regional HYCOM EnOI System
title_short Scaling Observation Error for Optimal Assimilation of CCI SST Data into a Regional HYCOM EnOI System
title_full Scaling Observation Error for Optimal Assimilation of CCI SST Data into a Regional HYCOM EnOI System
title_fullStr Scaling Observation Error for Optimal Assimilation of CCI SST Data into a Regional HYCOM EnOI System
title_full_unstemmed Scaling Observation Error for Optimal Assimilation of CCI SST Data into a Regional HYCOM EnOI System
title_sort scaling observation error for optimal assimilation of cci sst data into a regional hycom enoi system
publishDate 2020
url http://hdl.handle.net/2060/20200002164
op_coverage Unclassified, Unlimited, Publicly available
genre Sea ice
genre_facet Sea ice
op_source CASI
op_relation Document ID: 20200002164
http://hdl.handle.net/2060/20200002164
op_rights Copyright, Use by or on behalf of the U.S. Government permitted
_version_ 1766195219170066432

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