Ivica Janeković

Ivica Janeković

dr.sc.

viši znanstveni suradnik
+385 1 456 1139

1339

Krilo 3/208

Ivica Janekovic
Senior Research Associate
LSO, ZIMO, Rudjer Boskovic Institute
P.O. Box 180, 10002 Zagreb, Croatia
+385-1-456-1139

CV_ENG_2014.pdf 76,22 kB

Obrazovanje

  • Postdoc, 2009-2012, Advanced Data Assimilation, University of Hawaii at Manoa, USA.
  • Ph.D., 2006, Dissertation: „Three dimensional assimilative modeling of Adriatic tides“, Faculty of Natural Sciences, University of Zagreb.
  • S.M., 2001,   Oceanology, Master these: „Tides of the Adriatic Sea – numerical model and empirical analysis“, Faculty of Natural Sciences, University of Zagreb.
  • B.S., 1997,   Physics (field geophysics). These: „Determination of Qc factor for Zagreb area using coda waves“, Faculty of Natural Sciences, University of Zagreb.

Projekti

ADAM-ADRIA

http://www.irb.hr/Istrazivanja/Zavodi/Zavod-za-istrazivanje-mora-i-okolisa/Laboratorij-za-fiziku-mora-i-kemiju-vodenih-sustava/Exploring-the-Adriatic-Sea-Dynamics-using-Advanced-Data-Assimilation-Methods-and-Measurements-ADAM-ADRIA

Nastava

  • Predavač na doktorskom studiju Oceanologije - kolegij "Numeričko modeliranje u oceanologiji".

Istaknute publikacije

  • Vilibić, I., Šepić, J., Mihanović, H., Kalinić, Hrvoje; Cosoli, S., Janeković, I., Žagar, N., Jesenko, B., Tudor, M., Dadić, V., Ivanković, D. 2016. Self-Organizing Maps-based ocean currents forecasting system. Scientific Reports. 6, doi:10.1038/srep22924
  • Vilibić, I., Mihanović, H., Janeković, I., Šepić, J. 2016. Modelling the formation of dense water in the northern Adriatic: Sensitivity studies, Ocean modelling, 101, 17-29, doi:10.1016/j.ocemod.2016.03.001.
  • Janeković, I.,  Mihanović, H., Vilibić, I., Tudor, M. 2014. Extreme cooling and dense water formation estimates in open and coastal regions of the Adriatic Sea during the winter of 2012,  Journal of geophysical research, 119, doi: 10.1002/2014JC009865.
  • Janeković, I., Powell, B. S., Matthews, D., McManus, M. A., Sevadjian, J. 2013. 4D-Var Data Assimilation in a Nested, Coastal Ocean Model: A Hawaiian Case Study. Journal of geophysical research, 118,  1–14, doi:10.1002/jgrc.20389.
  • Sikirić, D. M., Roland, A., Janeković, I., Tomaz̆ić, I., Kuzmić, M., 2013. Coupling of the Regional Ocean Modeling System (ROMS) and Wind Wave Model. Ocean Modelling, 72, 59-73, doi:http://dx.doi.org/10.1016/j.ocemod.2013.08.002.
  • Powell, B.S., Janeković, I., Carter, G.S., Merrifield, M.A., 2012. Sensitivity of Internal Tide Generation in Hawaii, Geophysical research letters (0094-8276), 5, doi:10.1029/2012GL051724
  • Matthews, D. K., Powell, B., Janeković, I., 2012. Analysis of Four-dimensional Variational State Estimation of the Hawaiian Waters. Journal of Geophysical Research, 117, C03013, doi:10.1029/2011JC007575.
  • Janeković, I., Powell, B., 2012. Analysis of Imposing Tidal Dynamics to Nested Numerical Models. Continental Shelf Research, 34, 30-40.
  • Orlić, M., Belušić, D., Janeković, I., Pasarić, M.,2010. Fresh evidence relating the great Adriatic surge of 21 June 1978 to mesoscale atmospheric forcing. Journal of geophysical research. 115 (2010) , C06011

Članstva u profesionalnim udrugama / društvima

  • Recenzent za časopise Continental Shelf Research, Estuarine, Coastal and Shelf Science, Journal of Physical Oceanography, Journal of Geophysical Research, Acta Adriatica, Annales Geophysicae, Geofizika.
  • Član znanstvenog savjeta za  prirodne zananosti i istraživanje Jadranskog mora, HAZU.
  • Član MZOPU komisija za procjenu utjecaja na okoliš, stručnog tima Regionalnog Ekološkog Centra (REC) – Croatia.
  • Predstavnik IRB u MONGOOS.

Ostalo

Research Interests:

Development and implementation of different types of regional ocean modeling systems with their improvement through data assimilation techniques. Special interest to the real time applications and operational coastal ocean forecasting system using atmosphere – ocean coupled models. Combination of empirical, theoretical and numerical knowledge for further research benefit as well knowledge for understanding major and important ocean physics in continental shelf oceans and the adjacent sea. Data assimilation in a coastal and ocean basin systems using 4D-VAR. Nesting approach for simulations with use of advanced techniques of data assimilation. Coupling of numerical models for atmosphere, waves and ocean. Operational oceanography.