Reducing the error in estimates of the Sunda Strait currents by blending HF radar currents with model results

Subekti, Mujiasih; Hartanto, Dwi; Beckers, Jean-Marie; Barth, Alexander

doi:10.1016/j.csr.2021.104512

Download

Article (Scientific journals)

Reducing the error in estimates of the Sunda Strait currents by blending HF radar currents with model results

Subekti, Mujiasih; Hartanto, Dwi; Beckers, Jean-Marie et al.

2021 • In Continental Shelf Research

Peer Reviewed verified by ORBi

Permalink
https://hdl.handle.net/2268/268454

DOI
10.1016/j.csr.2021.104512

Files (1)Send to Details Statistics Bibliography Similar publications

Files

Full Text

MujiasihRevisedpaper.v3.19072021_orbi16022022.pdf

Author postprint (4.16 MB)

Accepted version

Download

All documents in ORBi are protected by a user license.

Send to

RIS BibTex APA Chicago Permalink X Linkedin

Details

Keywords :

Radial velocity; HF radar; Sunda Strait; Sumatera; Java; Indonesia

Disciplines :

Earth sciences & physical geography

Author, co-author :

Subekti, Mujiasih ; Université de Liège - ULiège > Département d'astrophys., géophysique et océanographie (AGO) > GeoHydrodynamics and Environment Research (GHER)

Hartanto, Dwi; Agency for Meteorology, Climatology, and Geophysics of the Republic of Indonesia (BMKG), Regional Office III, Jl. Raya Tuban, Kuta, 80361, Badung, Bali, Indonesia

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

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

Language :

English

Title :

Reducing the error in estimates of the Sunda Strait currents by blending HF radar currents with model results

Publication date :

2021

Journal title :

Continental Shelf Research

ISSN :

0278-4343

Publisher :

Elsevier, United Kingdom

Peer reviewed :

Peer Reviewed verified by ORBi

Funders :

Indonesia Endowment Fund for Education (LPDP), Ministry of Finance of the Republic of Indonesia

Available on ORBi :

since 18 February 2022

Statistics

Number of views

69 (10 by ULiège)

Number of downloads

8 (2 by ULiège)

More statistics

Scopus citations^®

Scopus citations^®
without self-citations

OpenCitations

Bibliography

Abascal, A.J., Castanedo, S., Fernandez, V., Medina, R., Backtracking drifting objects using surface currents from high-frequency (HF) radar technology. Ocean Dynam. 62:7 (2012), 1073–1089, 10.1007/s10236-012-0546-4.
Amri, K., Priatna, A., Suprapto, Oceanographycal characteristic and phytoplankton abundance in Sunda Strait in East Monsoon. Bawal 6:1 (2014), 11–20 April.
Barth, A., Alvera-Azcárate, A., Weisberg, R.H., Assimilation of high-frequency radar currents in a nested model of the West Florida Shelf. J. Geophys. Res.: Oceans, 2008, 10.1029/2007JC004585.
Berta, M., Bellomo, L., Magaldi, M.G., Griffa, A., Molcard, A., Marmain, J., Taillandier, V., Estimating Lagrangian transport blending drifters with HF radar data and models: results from the TOSCA experiment in the ligurian current (North Western Mediterranean Sea). Prog. Oceanogr. 128 (2014), 15–29, 10.1016/j.pocean.2014.08.004.
BIG. Map of the Republic of Indonesia Scale 1:5000.000, Edition 2017. 2017, Badan Informasi Geospasial (BIG) https://www.big.go.id/uploads/content/Layanan%20Publik/Download/Peta%20NKRI/20190828_NKRI_Skala_5_juta_Versi_Inggris.pdf accessed on 11/07/2021.
Bishop, C.H., Etherton, B.J., Majumdar, S.J., Adaptive sampling with the ensemble transform Kalman filter. Mon. Weather Rev. 129:3 (2001), 420–436, 10.1175/1520-0493(2001)129<0420:ASWTET>2.0.CO;2.
Brasseur, P., Ballabrera-Poy, J., Verron, J., Assimilation of altimetric data in the mid-latitude oceans using the Singular Evolutive Extended Kalman filter with an eddy-resolving, primitive equation model. J. Mar. Syst. 22:4 (1999), 269–294, 10.1016/S0924-7963(99)00044-5.
Breivik, Ø., Satra, Ø., Real time assimilation of HF radar currents into a coastal ocean model. J. Mar. Syst. 28:3–4 (2001), 161–182, 10.1016/S0924-7963(01)00002-1.
CODAR. CODAR's SeaSonde Radial Suite Release 6 Remote Operator's Manual. 2009.
CODAR. SeaSonde Current Vector Uncertainties the Start of QA/QC, CODAR News September 2013. 2013 http://www.codar.com/news_09_4_2013.shtml.
Evensen, G., Sequential data assimilation with a nonlinear quasi-geostrophic model using Monte Carlo methods to forecast error statistic. J. Geophys. Res. 99:C5 (1994), 10143–10162, 10.1029/94JC00572 15 May 1994.
Golub, G.H., Loan, C. F. Van, Matrix Computation. third ed., 1996, The Johns Hopkins University Press.
Group, G.C., GEBCO 2020 Grid. 2020, 10.5285/a29c5465-b138-234d-e053-6c86abc040b9.
Hampel, F.R., The influence curve and its role in robust estimation. J. Am. Stat. Assoc. 69:346 (1974), 383–393, 10.1080/01621459.1974.10482962.
Heron, M., Gomez, R., Weber, B., Dzvonkovskaya, A., Helzel, T., Thomas, N., Wyatt, L., Application of HF radar in hazard management. Int. J. Antenn. Propag., 2016, 2016, 10.1155/2016/4725407.
Jumarang, M.I., Ningsih, N.S., Transpor Volume Massa Air Di Selat Sunda Akibat Interaksi Enso, Monsun Dan Dipole Mode. 2013, Semirata 2013 FMIPA Universitas Lampung http://jurnal.fmipa.unila.ac.id/semirata/article/view/768/588.
Kalman, R.E., A new approach to linear filtering and prediction problems. J. Fluids Eng. Trans. ASME 82:1 (1960), 35–45, 10.1115/1.3662552.
Kim, S.Y., Terrill, E.J., Cornuelle, B.D., Mapping surface currents from HF radar radial velocity measurements using optimal interpolation. J. Geophys. Res.: Oceans 113:10 (2008), 1–16, 10.1029/2007JC004244.
Kirincich, A., Remote sensing of the surface wind field over the coastal ocean via direct calibration of HF radar backscatter power. J. Atmos. Ocean. Technol. 33:7 (2016), 1377–1392, 10.1175/JTECH-D-15-0242.1.
Kohut, J.T., Glenn, S.M., Chant, R.J., Seasonal current variability on the New Jersey inner shelf. J. Geophys. Res.: Oceans 109:7 (2004), 1–16, 10.1029/2003JC001963.
Koropitan, A.F., Hadi, S., Radjawane, I.M., Three-Dimensional simulation of tidal current in lampung bay:diagnostic numerical experiments. Rem. Sens. Earth Sci., 3(September), 2006, 10.30536/j.ijreses.2006.v3.a1205.
Lana, A., Marmain, J., Fernández, V., Tintoré, J., Orfila, A., Wind influence on surface current variability in the Ibiza Channel from HF Radar. Ocean Dynam., 2016, 10.1007/s10236-016-0929-z.
Lewis, J.K., Shulman, I., Blumberg, A.F., Assimilation of Doppler radar current data into numerical ocean models. Continent. Shelf Res. 18:5 (1998), 541–559, 10.1016/S0278-4343(98)00006-5.
Leys, C., Ley, C., Klein, O., Bernard, P., Licata, L., Detecting outliers: do not use standard deviation around the mean, use absolute deviation around the median. J. Exp. Soc. Psychol. 49:4 (2013), 764–766, 10.1016/j.jesp.2013.03.013.
Li, S., Wei, Z., Susanto, R.D., Zhu, Y., Setiawan, A., Xu, T., Fang, G., Observations of intraseasonal variability in the Sunda Strait throughflow. J. Oceanogr. 74:5 (2018), 541–547, 10.1007/s10872-018-0476-y.
Lipa, B., Isaacson, J., Nyden, B., Barrick, D., Tsunami arrival detection with high frequency (HF) radar. Rem. Sens. 4:5 (2012), 1448–1461, 10.3390/rs4051448.
Lipa, B., Barrick, D., Diposaptono, S., Isaacson, J., Jena, B.K., Nyden, B., et al. High frequency (HF) radar detection of the weak 2012 Indonesian tsunamis. Rem. Sens. 4:10 (2012), 2944–2956, 10.3390/rs4102944.
Lipa, B., Barrick, D., Saitoh, S.I., Ishikawa, Y., Awaji, T., Largier, J., Garfield, N., Japan tsunami current flows observed by HF radars on two continents. Rem. Sens. 3:8 (2011), 1663–1679, 10.3390/rs3081663.
Lipphardt, B.L., Kirwan, A.D., Grosch, C.E., Lewis, J.K., Paduan, J.D., Blending HF radar and model velocities in Monterey Bay through normal mode analysis. J. Geophys. Res.:Ocean 105:C2 (2000), 3425–3450, 10.1029/1999JC900295.
Livings, D., Aspects of the Ensemble Kalman Filter. Master's thesis, 2005, University of Reading, UK.
Lorente, P., Piedracoba, S., Sotillo, M.G., álvarez-Fanjul, E., Long-term monitoring of the Atlantic jet through the strait of Gibraltar with HF radar observations. J. Mar. Sci. Eng. 7:1 (2019), 1–16, 10.3390/jmse7010003.
Murphy, A.H., Epstein, E.S., Skill scores and correlation coefficients in model verification. Mon. Weather Rev. 117:March 1989 (1989), 572–581, 10.1175/1520-0493(1989)117<0572:ssacci>2.0.co;2.
NOAA. What's the difference between a tide and a current?. Natl Ocean Service Website, 2020 https://oceanservice.noaa.gov/facts/tidescurrents.html, 04/01/20.
Novico, F., Astawa, I.N., Sinaga, A., Ali, A., Seafloor morphology influences on current condition in a Sunda Strait bridge project using numerical model. Bull. Mar. Geol. 30:2 (2015), 55–66, 10.32693/bomg.30.2.2015.75.
Oktavia, R., Pariwono, J.I., Manurung, P., 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 3:2 (2011), 127–152, 10.29244/jitkt.v3i2.7827.
Orasi, A., Picone, M., Drago, A., Capodici, F., Gauci, A., Nardone, G., Alonso-Martirena, A., HF radar for wind waves measurements in the Malta-Sicily Channel. Measurement 128:November (2018), 446–454, 10.1016/j.measurement.2018.06.060.
Paduan, J.D., Kim, K.C., Cook, M.S., Chavez, F.P., Calibration and validation of direction-finding high-frequency radar ocean surface current observations. IEEE J. Ocean. Eng. 31:4 (2006), 862–875 (Available online http://codar.com/images/about/2006_Paduan_JOE.pdf. (Accessed 17 June 2021)
Paduan, J.D., Shulman, I., HF radar data assimilation in the Monterey Bay area. J. Geophys. Res. C Oceans 109:7 (2004), 1–17, 10.1029/2003JC001949.
Paduan, J.D., Washburn, L., High-frequency radar observations of ocean surface currents. Ann. Rev. Mar. Sci. 5:1 (2012), 115–136, 10.1146/annurev-marine-121211-172315.
Pariwono, J.I., Kondisi Oseanografi Perairan Pesisir Lampung (Tech. Rep.)., 1999, Coastal resources Center, University of Rhode Island, Jakarta, Indonesia.28 halaman Proyek Pesisir Publication, Technical report (TE- 99/12-I).
Pawlowicz, R., M_Map: A Mapping Package for MATLAB, Version 1.4m, Computer Software. 2020 www.eoas.ubc.ca/~rich/map.html.
Pawlowicz, R., Beardsley, B., Lentz, S., Classical tidal harmonic analysis including error estimates in MATLAB using T_TIDE. Comput. Geosci. 28:8 (2002), 929–937, 10.1016/S0098-3004(02)00013-4.
Potemra, J.T., Hacker, P.W., Melnichenko, O., Maximenko, N., Satellite estimate of freshwater exchange between the Indonesian seas and the Indian ocean via the Sunda Strait. J. Geophys. Res.: Oceans 119 (2016), 5098–5111, 10.1002/2015JC011618.
Rahmawitri, H., Atmadipoera, A.S., Sukoraharjo, S.S., Circulation and current variability in the Sunda Strait waters. Jurnal Kelautan Nasional 11:No.3 Desember 2016 (2016), 141–157, 10.15578/jkn.v11i3.6115.
Ren, L., Nash, S., Hartnett, M., Forecasting of surface currents via correcting wind stress with assimilation of high-frequency radar data in a three-dimensional model. Adv. Meteorol., 2016, 10.1155/2016/8950378.
Rubio, A., Mader, J., Corgnati, L., Mantovani, C., Griffa, A., Novellino, A., Puillat, I., HF Radar activity in European coastal seas: next steps toward a Pan-European HF Radar network. Front. Mar. Sci. 4:JAN (2017), 1–20, 10.3389/fmars.2017.00008.
Sandro, R., Arnudin, Tussadiah, A., Utamy, R.M., Pridina, N., Afifah, L.N., Study of wind, tidal wave and current potential in sunda strait as an alternative energy. Energy Procedia 47 (2014), 242–249, 10.1016/j.egypro.2014.01.220.
Shulman, I., Paduan, J.D., Assimilation of HF radar-derived radials and total currents in the Monterey Bay area. Deep-Sea Res. Part II Top. Stud. Oceanogr. 56:3–5 (2009), 149–160, 10.1016/j.dsr2.2008.08.004.
Solabarrieta, L., Rubio, A., Castanedo, S., Medina, R., Charria, G., Hernández, C., Surface water circulation patterns in the southeastern Bay of Biscay: new evidences from HF radar data. Continent. Shelf Res. 74 (2014), 60–76, 10.1016/j.csr.2013.11.022.
Soto-Navarro, J., Lorente, P., Álvarez Fanjul, E., Carlos Sánchez-Garrido, J., García-Lafuente, J., Surface circulation at the Strait of Gibraltar: a combined HF radar and high resolution model study. J. Geophys. Res.: Oceans 121:3 (2016), 2016–2034, 10.1002/2015JC011354.
Stanev, E.V., Ziemer, F., Schulz-Stellenfleth, J., Gurgel, K.-W., Seemann, J., Staneva, J., Blending surface currents from HF radar observations and numerical modeling: tidal hindcasts and forecasts. J. Atmos. Ocean. Technol. 32:2 (2015), 256–281, 10.1175/jtech-d-13-00164.1.
Susanto, D., Wei, Z., Adi, R., Zhang, Q., Fang, G., Fan, B., Setiawan, A., Oceanography surrounding krakatau volcano in the Sunda Strait, Indonesia. Oceanography, 2016, 10.5670/oceanog.2016.31.
Tian, Y., Wen, B., Tan, J., Li, Z., HF radar observation of tidal current over the Beibu Gulf, South China Sea. Wuhan Univ. J. Nat. Sci., 20(1), 2015, 10.1007/s11859-015-1058-0 055–058.
Vandenbulcke, L., Beckers, J.M., Barth, A., Correction of inertial oscillations by assimilation of HF radar data in a model of the Ligurian Sea. Ocean Dynam. 67:1 (2017), 117–135, 10.1007/s10236-016-1012-5.
Vetra-Carvalho, S., van Leeuwen, P.J., Nerger, L., Barth, A., Altaf, M.U., Brasseur, P., Beckers, J.M., State-of-the-art stochastic data assimilation methods for high-dimensional non-Gaussian problems. Tellus, Series A: Dyn. Meteorol. Oceanogr. 70:1 (2018), 1–38, 10.1080/16000870.2018.1445364.
Wyrtki, K., Physical Oceanography of the Southeast Asian Waters. UC San Diego Naga Report, vol. 2, 1961, The University of California Scripps Institution of Oceanography La Jolla, California.
Xu, J., Huang, J., Gao, S., Cao, Y., Assimilation of high frequency radar data into a shelf sea circulation model. J. Ocean Univ. China 13:4 (2014), 572–578, 10.1007/s11802-014-2224-2.
Yaremchuk, M., Sentchev, A., Mapping radar-derived sea surface currents with a variational method. Continent. Shelf Res. 29:14 (2009), 1711–1722, 10.1016/j.csr.2009.05.016.
Yu, P., Kurapov, A.L., Egbert, G.D., Allen, J.S., Kosro, P.M., Variational assimilation of HF radar surface currents in a coastal ocean model off Oregon. Ocean Model. 49:50 (2012), 86–104, 10.1016/j.ocemod.2012.03.001.