Papers indexed in the ISI Web of Science

  1. Averbukh E., Kurkina O., Kurkin A., Soomere T. 2014. Edge-wave-driven durable variations in the thickness of the surfactant film and concentration of surface floats. Physics Letters A, 378 (1-2), 53–58, doi: 10.1016/j.physleta.2013.10.019
  2. Kalda J., Soomere T., Giudici A. 2014. On the finite-time compressibility of the surface currents in the Gulf of Finland, the Baltic Sea. Journal of Marine Systems, 129, 56–65, doi: 10.1016/j.jmarsys.2012.08.010
  3. Soomere T., Räämet A. 2014. Decadal changes in the Baltic Sea wave heights. Journal of Marine Systems, 129, 86–95, doi: 10.1016/j.jmarsys.2013.03.009
  4. Soomere T., Viška M. 2014. Simulated sediment transport along the eastern coast of the Baltic Sea. Journal of Marine Systems, 129, 96–105, doi: 10.1016.j.jmarsys.2013.02.001
  5. Viikmäe B., Soomere T. 2014. Spatial pattern of hits to the nearshore from a major marine highway in the Gulf of Finland. Journal of Marine Systems, 129, 106–117, doi: 10.1016/j.jmarsys.2013.06.014
  6. Soomere T., Döös K., Lehmann A., Meier H.E.M., Murawski J., Myrberg K., Stanev E. 2014. The potential of current- and wind-driven transport for environmental management of the Baltic Sea. Ambio, 43, 94–104, doi: 10.1007/s13280-013-0480-9
  7. Tõnisson H., Suursaar Ü., Kont A., Orviku K., Rivis R., Szava-Kovats R., Vilumaa K., Aarna T., Eelsalu M., Pindsoo K., Palginõmm V., Ratas, U. 2014. Field experiments with different fractions of painted sediments to study material transport in three coastal sites in Estonia. Journal of Coastal Research, Special Issue 70, 229–234.
  8. Rybkin A., Pelinovsky E., Didenkulova I. 2014. Nonlinear wave run-up in bays of arbitrary cross-section: generalization of the Carrier–Greenspan approach. Journal of Fluid Mechanics, 748, 416–432, doi:10.1017/jfm.2014.197
  9. Soomere T., Eelsalu M. 2014. On the wave energy potential along the eastern Baltic Sea coast. Renewable Energy, 71, 221–233, doi: 10.1016/j.renene.2014.05.025
  10. Didenkulova I.I., Pelinovsky E.N., Didenkulov O.I. 2014. Run-up of long solitary waves of different polarities on a plane beach. Izvestiya RAS. Physics of the Atmosphere and Ocean, 50, 5, 532–538 (Original Russian version: И.И. Диденкулова, Е.Н. Пелиновский, О.И. Диденкулов 2014. Накат длинных уединённых волн различной полярности на плоский откос, Известия РАН. Физика Атмосферы и Океана, 50, 5, 604–611).
  11. Eelsalu M., Soomere T., Pindsoo K., Lagemaa P. 2014. Ensemble approach for projections of return periods of extreme water levels in Estonian waters. Continental Shelf Research, 91, 201–210, doi: 10.1016/j.csr.2014.09.012
  12. Averbukh E.L., Talipova T.G., Kurkin A.A., Soomere T. 2014. Statistical characteristics of coefficients of a cubic approximation of isotherms of surface active substance films. Proceedings of the Estonian Academy of Sciences, 63, 4, 417–427, doi: 10.3176/proc.2014.4.07
  13. Keevallik S., Soomere T. 2014. Regime shifts in the surface-level average air flow over the Gulf of Finland during 1981–2010. Proceedings of the Estonian Academy of Sciences, 63, 4, 428–437, doi: 10.3176/proc.2014.4.08
  14. Giudici A., Soomere T. 2014. Finite-time compressibility as an agent of frequent spontaneous patch formation in the surface layer: a case study for the Gulf of Finland, the Baltic Sea. Marine Pollution Bulletin, 89, 1–2, 239–249, doi: 10.1016/j.marpolbul.2014.09.053

 

Monographs and collections

  1. Ioannides M., Quak E. (eds.) 2014. 3D Research Challenges in Cultural Heritage. A Roadmap in Digital Heritage Preservation. Lecture Notes in Computer Science, 8355, Springer, Berlin, Heidelberg, 142 pp.

 

Editorial indexed in the ISI Web of Science

  1. Järv J., Engelbrecht J., Soomere T. 2014. Towards a tighter symbiosis of natural sciences and engineering. Proceedings of the Estonian Academy of Sciences, 63(1), 1.

 

Theses and monographs based on theses

  1. Viikmäe B. 2014. Optimising Fairways in the Gulf of Finland Using Patterns of Surface Currents. PhD thesis. Tallinn University of Technology, 196 pp.
  2. Viška M. 2014. Sediment Transport Patterns Along the Eastern Coasts of the Baltic Sea. PhD thesis. Tallinn University of Technology, 155 pp.
  3. Delpeche-Ellmann N. 2014. Circulation Patterns in the Gulf of Finland Applied to Environmental Management of Marine Protected Areas. PhD thesis. Tallinn University of Technology, 143 pp.
  4. Rodin A.A., Pelinovsky E.N. 2014. Динамика длинных волн в прибрежной зоне моря с учетом эффектов обрушения (Dynamics of long waves in the marine coastal zone involving effects of wave breaking). Nizhny Novgorod State Technical University n.a. R.E. Alekseev, Institute of Applied Physics, Russian Academy of Sciences, Institute of Cybernetics at Tallinn University of Technology, Nizhny Novgorod 2014, 92 pp. (in Russian).

 

Papers in international peer-reviewed journals and collections

  1. Pindsoo K., Soomere T. 2014. Signal of wave climate change reflected by wave set-up height. In: 2nd International Conference on Climate Change – The environmental and socio-economic response in the Southern Baltic region, Szczecin, Poland, 12-15 May 2014, Conference Proceedings, Witkowski A., Harff J., Reckermann M., eds. International Baltic Earth Secretariat Publication 2. Helmholtz-Zentrum Geesthacht, Germany, 67–68.
  2. Eelsalu M., Soomere T. 2014. On spatio-temporal variations of the wave energy potential along the eastern Baltic Sea coast. Ibid., 81–82.
  3. Giudici A., Soomere T. 2014. Highly persisting patch formation areas in the Gulf of Finland, the Baltic Sea. Ibid., 84–85.
  4. Viška M., Soomere T. 2014. On sensitivity of wave-driven alongshore sediment transport patterns with respect to model setup and sediment properties. Ibid., 94–95.
  5. Giudici A., Soomere T. 2014. Measuring finite time compressibility from large simulated datasets: towards identification of areas of spontaneous patch formation in the Gulf of Finland. In: Databases and Information Systems. Proceedings of the 11th International Baltic Conference, Baltic DB&IS 2014, 8-11 June, Tallinn, Estonia. Haav H.-M., Kalja A., Robal T. (eds.), Tallinn: Tallinn University of Technology Press, 441–446.
  6. Eelsalu M., Org M., Soomere T. 2014. Visually observed wave climate in the Gulf of Riga. In: 6th IEEE/OES Baltic Symposium Measuring and Modeling of Multi-Scale Interactions in the Marine Environment, May 26–29, Tallinn Estonia. IEEE Conference Publications, 10 pp., ISBN 978-1-4799-5707-1, doi: 10.1109/BALTIC.2014.6887829
  7. Torsvik T., Kalda J. 2014. Analysis of surface current properties in the Gulf of Finland using data from surface drifters. In: 6th IEEE/OES Baltic Symposium “Measuring and Modeling of Multi-Scale Interactions in the Marine Environment,” May 26–29, Tallinn Estonia. IEEE Conference Publications,
  8. Pindsoo K., Eelsalu M., Soomere T., Tõnisson H. 2014 An estimate of the impact of vessel wakes on coastal processes: a case study for Aegna, Estonia. Ibid., 9 pp., 10.1109/BALTIC.2014.6887859
  9. Nikolkina I., Soomere T., Räämet A. 2014. Multidecadal ensemble hindcast of wave fields in the Baltic Sea. Ibid., 9 pp., doi: 10.1109/BALTIC.2014.6887854
  10. Julge K., Eelsalu M., Grünthal E., Talvik S., Ellmann A., Soomere T., Tõnisson H. 2014. Combining airborne and terrestrial laser scanning to monitor coastal processes. Ibid., 10 pp., doi: 10.1109/BALTIC.2014.6887874
  11. Kurkina O., Kurkin A., Soomere T., Rybin A., Tyugin D. 2014 Pycnocline variations in the Baltic Sea affect background conditions for internal waves. Ibid., 8 pp., doi: 10.1109/BALTIC.2014.6887879
  12. Rodin A., Didenkulova I., Nikolkina I. 2014. Run-up of large storm waves on Estonian coasts of the Baltic Sea. Ibid., 5 pp., doi: 10.1109/BALTIC.2014.6887886
  13. Giudici A., Nikolkina I., Soomere T. 2014. Automated detection of crossing seas from simulated wave spectra. Ibid., 7 pp., doi: 10.1109/BALTIC.2014.7028145
  14. Giudici A., Soomere T. 2014. On the possibility of spontaneous patch formation in the Gulf of Finland. Ibid., 6 pp., doi: 10.1109/BALTIC.2014.7032693
  15. Didenkulov O., Didenkulova I., Pelinovsky E. 2014. Parameterization of run-up characteristics of solitary waves in the bay of parabolic cross-section. Proceedings of the Nizhny Novgorod State Technical Universtity n.a. R.E. Alekseev 3 (105), 30-36. [Диденкулов О.И., Диденкулова И.И., Пелиновский Е.Н. Параметризация характерстик наката одиночных волн в бухте параболического сечения. Труды Нижегородского государственного технического университета им. Р.Е. Алексеева. Механика жидкости, газа и плазмы, № 3 (105), 30-36 (2014).]
  16. Denissenko P., Pearson J., Rodin A. Didenkulova I. 2014. Long waves climbing the slopes of different roughness: run-up height and the load on individual roughness elements. In: Proceedings of the HYDRALAB IV Joint User Meeting, Lisbon, July 2014. TA-FZK-03, 6 pp.
  17. Schimmels S., Sriram V., Didenkulova I., Fernandez H. 2014. On the generation of tsunami in a large scale wave flume. In: Proceedings of 34th International Conference on Coastal Engineering, Seoul, Korea, 15-20 June 2014, 10 pp.
  18. Sriram V., Didenkulova I., Schimmels S., Sergeeva A., Goseberg N. 2014. Long wave propagation, shoaling and run-up in nearshore areas. In: Proceedings of 34th International Conference on Coastal Engineering, Seoul, Korea, 15-20 June 2014, 8 pp.

 

Papers in popular science books, journals and newspapers

  1. Viikmäe B. 2014. Laevateede optimeerimine Soome lahel pinnahoovuste mustrite põhjal (Fairway optimization in the Gulf of Finland based on patterns of surface currents). Meremees (The Mariner), 2/2014 (in Estonian).
  2. Soomere T. 2014. Pöördepunkt Eesti teaduses: uurimisprogrammide klastrist projektiteaduseks (Inflection point in Estonian science: from a cluster of research programmes to project-based science). Sirp, 24/25(3494/3495), 20.06.2014, 42–43 (in Estonian).
  3. Soomere T. 2014. Katse liigitada sädelemist (How to categorize sparkling science: a comment to the 75th birthday of J. Engelbrecht), Sirp, 29(3499), 25.07.2014, 29–30 (in Estonian).
  4. Soomere T. 2014. Teaduse järelkasv teadusreformi järellainetuses (Young scientists in the wake of changes in the science financing system). Sirp, 33(3503), 22.08.2014, 34–35 (in Estonian).
  5. Soomere T. 2014. Kõigil on teadusest kasu (Everybody benefits from science). Postimees–Arvamus. Kultuur, 273(7264), 22.11.2014, 5 (in Estonian).
  6. Soomere T. 2014. Teaduse populariseerimisest (The meaning of science popularisation). Horisont, 6/2014, 4 (in Estonian).
  7. Soomere T. 2014. Diagnoos: teadlane (Diagnosis: a scientist). Tallinna Tehnikaülikooli Aastaraamat 2013 (Yearbook of Tallinn University of Technology 2013). TTÜ Kirjastus, 22–30 (in Estonian).
  8. Soomere T. 2014. Merelt lähtuvate ohtude kvantifitseerimine ja minimeerimine Läänemere ranniku kontekstis (Quantification and minimization of marine coastal hazards in the Baltic Sea). Tallinna Tehnikaülikooli Aastaraamat 2013 (Yearbook of Tallinn University of Technology 2013). TTÜ Kirjastus, 170–190 (in Estonian).
  9. Soomere T. 2014. Keskkonnahoidliku merekasutuse matemaatika rakendusi Läänemere rannikute kaitseks (Applications of environmentally friendly mathematics for the protection of the Baltic Sea coasts). Tallinna Tehnikaülikooli Aastaraamat 2013 (Yearbook of Tallinn University of Technology 2013). TTÜ Kirjastus, 216–227 (in Estonian).
  10. Undusk J., Soomere T. 2014. Truudus Eestile. Globaliseeruvas maailmas. Sirp, 50(3520), 19.12.2014, 2–5 (in Estonian).

 

Research reports

  1. Soomere, T., Eelsalu, M., Pindsoo, K. 2014. Rannasetete bilanss Miidurannast Tallinna Vanasadamani (Estimates of the budget of coastal sediments from Miiduranna Harbour up to Tallinn Old Harbour (Gulf of Finland, Baltic Sea)). Käsikirjaline aruanne. Käsikirjaline aruanne (Research report). Tallinna Tehnikaülikooli Küberneetika Instituut, Detsember 2014, 91 pp. (in Estonian).

 

Abstracts

  1. Soomere T. 2014. Changing wave climate in the Baltic Sea. In: IV Finnish-Estonian Mathematics Colloquium & Finnish Mathematical Days, University of Helsinki, 9-10 January 2014. Book of Abstracts. University of Helsinki, Faculty of Science, 7-8.
  2. Didenkulova I. 2014. Nonlinear dynamics of the coastal zone with applications to marine hazards. Geophysical Research Abstracts, 16, EGU2014-817.
  3. Didenkulova I., Pelinovsky E. 2014. Travelling long waves in water channels of variable cross section. Geophysical Research Abstracts, 16, EGU2014-1313.
  4. Rodin A., Didenkulova I. 2014. Shallow water freak waves: the case of Tallinn Bay the Baltic Sea. Geophysical Research Abstracts, 16, EGU2014-7042.
  5. Zaytsev A., Didenkulova I., Ranguelov B., Pelinovsky E., Yalciner A. 2014. Assessment of Tsunami inundation map for Bulgarian coasts of in the Black Sea. Geophysical Research Abstracts, 16, EGU2014-11400.
  6. Rodin A. 2014. Influence of wave breaking effects on wave transformation and run-up on the beach. Geophysical Research Abstracts, 16, EGU2014-14319.
  7. Didenkulova I., Denissenko P., Rodin A., Pearson J. 2014. Experimental study of the runup of long nonlinear regular and irregular waves. Geophysical Research Abstracts, 16, EGU2014-16403.
  8. Viikmäe B., Torsvik T. 2014. Analysis of the lifetime of eddy structures. In: Measuring and Modeling of Multi-Scale Interactions in the Marine Environment: IEEE/OES Baltic Symposium 2014, May 26-29 2014, Tallinn, Estonia, Book of Abstracts. Tallinn University of Technology, 136.
  9. Viikmäe B., Soomere T., Torsvik T. 2014. Optimising fairways in the Gulf of Finland using patterns of surface currents. In: Agenda and Abstracts: 6th International Workshop on Modeling the Ocean, Halifax, Canada, 23-27 June 2014.Halifax, Canada, Dalhousie University, 45.
  10. Torsvik T., Kalda J. 2014. Analysis of surface current properties in the Gulf of Finland using data from surface drifters.In: Measuring and a Modeling of Multi-Scale Interactions in the Marine Environment: IEEE/OES Baltic Symposium 2014, May 26–29 2014, Tallinn, Estonia, Book of Abstracts. Tallinn University of Technology, 2014, 125.
  11. Soomere T. 2014. Towards smart use of currents for environmental management of maritime activities. In: Mathematics and Engineering in Marine and Earth Problems, 22–25 July 2014, Aveiro, Portugal. Book of Abstracts, 34–35.
  12. Giudici A., Soomere T. 2014. Quantification of spontaneous patch generation in marine surface layer. Ibid., 56–57.
  13. Pindsoo K., Soomere T., Eelsalu M., Tõnisson H. 2014. Vessel wakes effectively transport gravel, cobbles and pebbles. Ibid., 103–105.
  14. Eelsalu M., Julge K., Grünthal E., Talvik S., Ellmann A., Soomere T., Tõnisson H. 2014. Combined laser scanning to monitor coastal processes. Ibid., 106–108.
  15. Rodin A. 2014. Peculiarities of long wave transformation waves in nonlinear hyperbolic systems (shallow-water framework). Ibid, 109–111.
  16. Pindsoo K., Soomere T. 2014. Changing wave set-up climate in the urban area of Tallinn, Estonia. Ibid., 130–132.
  17. Eelsalu M., Soomere T. 2014. Intermittency of the wave energy flux in the eastern Baltic Sea. Ibid, 133–135.
  18. Viikmäe B., Soomere T., Torsvik T. 2014. Optimizing fairways in the Gulf of Finland using patterns of surface currents. Ibid., 184–185.
  19. Delpeche-Ellmann N., Soomere T. 2014. Using current-driven patterns in the surface layer of the Gulf of Finland to predict the Marine Protected Areas at risk of pollution. In: IUTAM Symposium on Complexity of Nonlinear Waves 8–12 September, Tallinn 2014. Book of Abstracts, Salupere A., Maugin G.A., eds. Institute of Cybernetics at Tallinn University of Technology, 35–36.
  20. Didenkulov O., Didenkulova I., Pelinovsky E. 2014. Parameterization of run-up characteristics of bell-shaped tsunami waves in a bay of parabolic cross-section. Ibid., 39–40.
  21. Eelsalu M., Julge K., Grünthal E., Ellmann A., Soomere T. 2014. Laser scanning reveals detailed spatial structure of sandy beaches. Ibid., 45–46.
  22. Giudici A., Soomere T. 2014. Finite-Time Compressibility as a measure of likelihood of spontaneous patch formation in the Gulf of Finland. Ibid., 55–56.
  23. Kurkina O., Soomere T., Kurkin A., Rybin A., Tyugin D. 2014. Long-term variability of internal wave climate in the Baltic Sea. Ibid., 69–70.
  24. Pindsoo K., Soomere T. 2014. Wave set-up climatology in the city of Tallinn, Estonia. Ibid., 91–92.
  25. Rodin A., Pelinovsky E. 2014. Deformation of long large-amplitude waves in finite-depth fluid. Ibid., 99–100.
  26. Soomere T. 2014. Change in waves and winds that may lead to an ecological deadzone in the deep Baltic. Ibid., 115–116.
  27. Talipova T., Terletska K. Kurkina O. 2014. Breathers of the internal waves. Ibid., 121.
  28. Torsvik T., Herrmann H., Didenkulova I., Rodin A., Quak E. 2014. Analysis of ship wake structures by use of time-frequency methods. Ibid., 125–126.
  29. Viikmäe B., Soomere T., Torsvik T. 2014. Modelling wave-driven impacts on the spatial pattern of current-driven hits to the nearshore. Ibid., 135–136.
  30. Viška M., Soomere T. 2014. Structural stability of eastern Baltic Sea coast under simulated wave-driven alongshore transport. Ibid., 137–138.
  31. Soomere T. 2014. Major natural hazards in the Gulf of Finland. In: Baltic Earth – Gulf of Finland Year 2014 Modelling Workshop “Modelling as a tool to ensure sustainable development of the Gulf of Finland–Baltic Sea ecosystem”. Finnish Environment Institute SYKE, Helsinki, 24–25 November 2014. Programme, Abstracts, Participants. International Baltic Earth Secretariat Publications, Helmholtz-Zentrum Geesthacht, 7–8.
  32. Eelsalu M., Julge K., Soomere T., Grünthal E. 2014. Quantification of the evolution of a small beach applying laser scanning technology. Ibid., 10.
  33. Pindsoo K., Eelsalu M., Soomere T. 2014. Quantification of the impact of vessel wakes on the transport of coarse sediment. Ibid., 16.
  34. Soomere T. 2014. Academia ajaülesed väärtused muutuval teadusmaastikul (The timeless values of Academia on the landscape of science). In: 58. Kreutzwaldi päevade teaduslik konverents „Eesti perekond: traditsioon ja fiktsioon“ 16.–17. detsember 2014 Tartu (58th scientific conference The days of Kreutzwald). Teesid. Eesti Kirjandusmuuseumi Teaduskirjastus, 3–4 (in Estonian).
  35. Schimmels S., Didenkulova I., Sriram V., Goseberg N. 2014. Tsunami propagation and run-up in nearshore areas. In: Abstracts of 34th International Conference on Coastal Engineering, Seoul, Korea, 15–20 June 2014, E155.
  36. Sriram V., Didenkulova I., Schimmels S., Fernandez H. 2014. On the generation of tsunami in a large scale wave flume. Abstracts of 34th International Conference on Coastal Engineering, Seoul, Korea, 15–20 June 2014. E104.
  37. Didenkulov O.I., Didenkulova I.I., Pelinovsky E.N. 2014. Parameterization of the characteristics of runup of single waves in the bay with parabolic cross-section. In: Proceedings of the 24th Scientific and Practical Conference “COGRAPH 2014″, Nizhny Novgorod, 16–17 April 2014, Nizhny Novgorod, 170-175 (Диденкулов О.И., Диденкулова И.И., Пелиновский Е.Н. Параметризация характеристик наката одиночных волн в бухте параболического сечения.Сборник материалов 24-ой Всероссийской научно-практической конференции по графическим информационным технологиям и системам «КОГРАФ-2014», Нижний Новгород, 16-17 апреля 2014 г., Нижний Новгород 2014, с. 170-175) (in Russian).
  38. Rodin A.A., Didenkulova I.I. 2014. Transformation and runup of large-amplitude waves induced by fast ferries. In: Proceedings of the 20th International Scientific and Technical Conference “Information Systems and Technologies (IST 2014)”, 18 April 2014, Nizhny Novgorod, 2014, 374 (Диденкулова И.И., Родин А.А. Трансформация и накат волн большой амплитуды, обусловленных прохождением быстроходных паромов. Сборник материалов XX Международной научно-технической конференции «Информационные системы и технологии» ИСТ-2014, Нижний Новгород, 18 апреля 2014 г., Нижний Новгород 2014, с. 374) (in Russian).
  39. Didenkulov O.I., Didenkulova I.I., Pelinovsky E.N. 2014. Runup of different bell-shaped pulses on the coast with parabolic cross-section. In: Proceedings of the XIII International Scientific Conference “The Future of Technical Science”, 23 May 2014, Nizhny Novgorod, 478 (Диденкулов О.И., Диденкулова И.И., Пелиновский Е.Н. Накат различных импульсов колоколообразной формы на берег бухты параболического сечения. Сборник материалов XIII Международной молодежной научно-технической конференции “Будущее технической науки”, Нижний Новгород, 23 мая 2014 г., Нижний Новгород 2014. с. 478) (in Russian).
  40. Rodin A.A., Didenkulova I.I. 2014. Transformation and runup of large-amplitude waves induced by fast ferries in the coastal zone of the Baltic Sea. In: Proceedings of the XIII International Scientific Conference “The Future of Technical Science”, 23 May 2014, Nizhny Novgorod, 486–487 (Родин А.А., Диденкулова И.И. Трансформация и накат волн от быстроходных паромов в прибрежной зоне балтийского моря. Сборник материалов XIII Международной молодежной научно-технической конференции “Будущее технической науки”, Нижний Новгород, 23 мая 2014 г., Нижний Новгород 2014. с. 486-487) (in Russian).