Blending of Radial HF Radar Surface Current and Model Using ETKF Scheme For The Sunda Strait

Subekti, Mujiasih; Riyadi, Mochammad; Wandono, Dr; Suardana, I Wayan; Wiryajaya, I Nyoman Gede; Suarsa, I Nyoman; Hartanto, Dwi; Barth, Alexander; Beckers, Jean-Marie

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Blending of Radial HF Radar Surface Current and Model Using ETKF Scheme For The Sunda Strait

Subekti, Mujiasih; Riyadi, Mochammad; Wandono, Dr et al.

2017 • EGU General Assembly 2017

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Keywords :

HF Radar; Sunda Strait; ETKF, CMEMS

Abstract :

[en] Preliminary study of data blending of surface current for Sunda Strait-Indonesia has been done using the analysis scheme of the Ensemble Transform Kalman Filter (ETKF). The method is utilized to combine radial velocity from HF Radar and u and v component of velocity from Global Copernicus - Marine environment monitoring service (CMEMS) model. The initial ensemble is based on the time variability of the CMEMS model result. Data tested are from 2 CODAR Seasonde radar sites in Sunda Strait and 2 dates such as 09 September 2013 and 08 February 2016 at 12.00 UTC. The radial HF Radar data has a hourly temporal resolution, 20-60 km of spatial range, 3 km of range resolution, 5 degree of angular resolution and spatial resolution and 11.5-14 MHz of frequency range. The u and v component of the model velocity represents a daily mean with 1/12 degree spatial resolution. The radial data from one HF radar site is analyzed and the result compared to the equivalent radial velocity from CMEMS for the second HF radar site. Error checking is calculated by root mean squared error (RMSE). Calculation of ensemble analysis and ensemble mean is using Sangoma software package. The tested R which represents observation error covariance matrix, is a diagonal matrix with diagonal elements equal 0.05, 0.5 or 1.0 m 2 /s 2 . The initial ensemble members comes from a model simulation spanning a month (September 2013 or February 2016), one year (2013) or 4 years (2013-2016). The spatial distribution of the radial current are analyzed and the RMSE values obtained from independent HF radar station are optimized. It was verified that the analysis reproduces well the structure included in the analyzed HF radar data. More importantly, the analysis was also improved relative to the second independent HF radar site. RMSE of the improved analysis is better than first HF Radar site Analysis. The best result of the blending exercise was obtained for observation error variance equal to 0.05 m 2 /s 2 . This study is still preliminary step, but it gives promising result for bigger size of data, combining other model and further development

Research Center/Unit :

GHER

Disciplines :

Physics

Author, co-author :

Subekti, Mujiasih ; Université de Liège - ULiège > Form. doct. sc. (océano. paysage)

Riyadi, Mochammad; Indonesian Agency for Meteorology Climatology and Geophysics

Wandono, Dr; Indonesian Agency for Meteorology Climatology and Geophysics

Suardana, I Wayan; Indonesian Agency for Meteorology Climatology and Geophysics

Wiryajaya, I Nyoman Gede; Indonesian Agency for Meteorology Climatology and Geophysics

Suarsa, I Nyoman; Indonesian Agency for Meteorology Climatology and Geophysics

Hartanto, Dwi; Indonesian Agency for Meteorology Climatology and Geophysics

Barth, Alexander ; Université de Liège > Département d'astrophys., géophysique et océanographie (AGO) > GeoHydrodynamics and Environment Research (GHER)

Beckers, Jean-Marie ; Université de Liège > Département d'astrophys., géophysique et océanographie (AGO) > GeoHydrodynamics and Environment Research (GHER)

Language :

English

Title :

Blending of Radial HF Radar Surface Current and Model Using ETKF Scheme For The Sunda Strait

Publication date :

2017

Event name :

EGU General Assembly 2017

Event organizer :

European Geosciences Union

Event place :

Vienna, Austria

Event date :

from 22-04-2017 to 29-04-2017

Audience :

International

References of the abstract :

Barth, A., Alvera-Azc´arate, A., Gurgel, K.W., Staneva, J., Port, A., Becker, J.M., Stanev, E.V.,(2010): Ensemble perturbation smoother for optimizing tidal boundary conditions by assimilation of High-Frequency Radar surface currents Application to the German Bight. Artikel diperoleh melalui situs internet: http://modb.oce.ulg.ac.be/mediawiki/upload/Alex/CV/Web/Barth2010_assim_hf_tides/accessed date 17 October 2015 Barth, A., Alvera, A., Weisberg, R.H., (2008): Assimilation of HF Radar Currents in a Nested Model of West Florida Shelf, Journal of Geophysical Reserach, VoL. 113, C08033, doi:10.1029/2007JC004585, 2008. Clusters at CÉCI, (2013): Artikel diperoleh melalui situs internet: http://www.ceci-hpc.be/clusters.html accessed date 03 September 2015. Gopalakhrisnan, G., 2008: Surface Current Observations Using High Frequency radar and its assimilation into Newyork Harbor Observing and Prediction System, Dissertation, Steven Institute of Technology. Kerry, C. G., B. Powell, M. Roughan and P. Oke,2016:Development and evaluation of a high-resolution reanalysis of the East Australian Current region using the Regional Ocean Modelling System (ROMS 3.4) and Incremental Strong-Constraint 4-Dimensional Variational data assimilation (IS4D-Var). Lipa, B., Barrick, D., Diposaptono, S., Isaacson,J., Jena, B.K., Nyden, B., Rajesh, K., and Kumar, T.S.2012: High Frequency (HF) Radar Detection of the Weak 2012 Indonesian Tsunamis. Remote Sens. 2012, 4, 2944-2956; doi:10.3390/rs4102944 Oke, P.R., Sakov P, Cahill ML, Dunn JR, Fiedler R, Griffin DA, Mansbridge JV, Ridgway KR, Schiller A., 2013: Towards a dynamically balanced eddy-resolving ocean reanalysis: BRAN3, Ocean Modelling, 67, 52-70,10.1016/j.ocemod.2013.03.008. Oke, P.R., Gary B. Brassington, David A. Griffin, Andreas Schiller, 2008: The Bluelink ocean data assimilation system (BODAS).Elsevier Sciencedirect Ocean Modelling 21 (2008) 46–70 Available online at www.sciencedirect.com Oke, P. R., A. Schiller, D. A. Griffin and G. B. Brassington, 2005: Ensemble data assimilation for an eddy-resolving ocean model of the Australian region, Q. J. R. Meteorol. Soc. (2005), 131, pp. 3301-3311, doi: 10.1256/qj.05.95 Oktavia, R., Pariwono, J.I., and Manurung, P.,2011: Sea Level Variation and Geostrophic Current of The Sunda Strait Based on Tidal and Wind data in Year 2008. Jurnal Ilmu dan Teknologi Kelautan Tropis, Vol. 3, No. 2, Hal. 127-152, Desember 2011 Paduan, J.D., and Washburn, L., 2012: High-Frequency Radar Observations of Ocean Surface Currents, Annu. Rev. Mar. Sci. 2013. 5:115–36, Article available in marine.annualreviews.org accessed on date 12 September 2015. WMO-No. 471, 2001: Guide to Marine Meteorological Services. Third Edition. World Meteorological Organization Wandala,A., 2015: Peran BMKG dalam Proses Pencarian dan Evakuasi Airasia QZ8501. Article available downloaded in www.bmkg.go.id accessed on 10 October 2015 ______2015: Hycom article available online in https://hycom.org/ accessed on 10 October 2015 Willy and Furqon Alfahmi, 2014, Analisa Gelombang Laut di Selat Sunda Saat Terjadi Awan Cumulonimbus Dengan High Frekuensi Radar (CODAR), Proceeding Workshop Operasional Radar 2014.

Funders :

INDONESIA ENDOWMENT FUND FOR EDUCATION, UNIVERSITE DE LIEGE

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