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PUBLICATIONS

Journal Articles

  1. Li, H., Gedikli, E.D. and Lubbad, R. Laboratory study of wave-induced flexural motion of ice floes, J. of Cold Regions and Science, 2021,  https://doi.org/10.1016/j.coldregions.2020.103208

  2. Li, H., Gedikli, E.D. and Lubbad, R. Exploring time-delay-based numerical differentiation using principal component analysis, Physics A: Statistical Mechanics and its Applications, 2020, https://doi.org/10.1016/j.physa.2020.124839

  3. Gedikli, E.D., Chelidze, D. and Dahl, J. Empirical mode analysis identifying hysteresis in vortex-induced vibration of a bending dominated flexible cylinder. J. of Offshore and Polar Engineering, 2020, https://www.onepetro.org/journal-paper/ISOPE-20-30-2-186

  4. Li, H., Gedikli, E.D. and Lubbad, R. Laboratory study of wave-induced ice-ice collisions using robust principal component analysis and sensor fusion. J. of Cold Regions Science and Technology, 2020, https://doi.org/10.1016/j.coldregions.2020.103010

  5. Gedikli, E.D., Nord, T., Hendrikse, H. and Ziemer, G. On the pressure modes in ice-induced vibrations using multivariate analysis. J. of Cold Regions Science and Technology, 2019, https://doi.org/10.1016/j.coldregions.2019.02.003

  6. Gedikli, E.D., Chelidze, D. and Dahl, J. Observed mode shape effects on the vortex-induced vibration of bending dominated flexible cylinders simply supported at both ends. J. of Fluids and Structures, 2018, https://doi.org/10.1016/j.jfluidstructs.2018.05.010

  7. Gedikli, E.D., Dahl, J. and Chelidze, D. Multivariate analysis of vortex-induced vibrations in a tensioned cylinder reveal nonlinear modal interactions, 2017. Procedia Eng.

  8. Gedikli, E.D. and Dahl, J. Mode excitation hysteresis of a flexible cylinder undergoing vortex-induced vibrations. J. of Fluids and Structures, 2017, https://doi.org/10.1016/j.jfluidstructs.2017.01.006 

Articles in Conference Proceedings

14. Peel, G. and Gedikli, E.D. Investigating the dominant force distributions in ice-induced vibrations using multivariate analysis​, 26th IAHR International Symposium on Ice, June 20, 2022

13.Gedikli, E.D. and Dahl, J. Investigating the effectiveness of piezo stripe actuators on flexible cylinder's dynamic response under vortex-induced vibrations, 2021, Oceans Conference Proceedings

12. Hoyland, K.V., Nord, T., Turner, J., Hornnes, V., Gedikli, E.D., Bjerkas, M., Hendrikse H., Hammer, T., Ziemer, G., Stange, T., Ehlers, S., Braun, T., Willems, T., Fischer, C. Fatigue damage from dynamic ice action- The FATICE project, 2021, Proceedings of the 26th International Conference on Port and Ocean Engineering under Arctic Conditions

11. Gedikli, E.D., Bjerkas, M., Hoyland, K.V., Hornnes. V., Turner, J. On the ice and wind conditions in the northern part of the Gulf of Bothnia leading ice-induced vibrations, 2020, 25th IAHR Symposium on Ice

10. Li, H., Gedikli, E.D., Lubbad, R. Systematic investigation of data analysis methods in wave-ice interaction problem, 2020, 25th IAHR Symposium on Ice

9. Hornnes, V., Hoyland, K.V., Turner, J., Gedikli, E.D. Comparison of in-situ measurements from the Norstromsgrund lighthouse to Copernicus reanalysis products, 2020, 25th IAHR Symposium on Ice

8. Gedikli, E.D. and Bjerkas, M. A method to find intervals with probability of harsh ice-induced vibrations, 2019, 25th POAC conference

7. Li, H., Gedikli, E.D., Lubbad, R. Identifying flexural-mode shapes of ice floes under wave actions using multivariate analysis techniques, 2019, 25th POAC conference

6. Gedikli, E.D., Chelidze, D. and Dahl, J. Bending dominated flexible cylinder experiments reveal insights into modal interactions for flexible body vortex-induced vibrations, 2018, ISOPE Conference

5. Gedikli, E.D., Chelidze, D. and Dahl, J. Active control of flexible cylinders undergoing vortex-induced vibrations using piezo stripe actuators, 2018, Structural Health Monitoring, Photogrammetry and DIC, Proceedings of the Society for Experimental Mechanics

4. Gedikli, E.D. and Nord, T., Discovering pressure modes in ice-induced vibrations using proper-orthogonal decomposition, 2018, 3rd International Symposium on NA&ME.

3. Gedikli, E.D. and Dahl, J. A novel method for manipulating flexible cylinder vortex-induced vibrations, 2018, 3rd International Symposium on NA&ME.

2. Gedikli, E.D. and Dahl, J. Comparison of structural mode effects on bending and tension dominated flexible cylinders in vortex-induced vibrations, 2016, 8th International Colloquium in Bluff Body Aeorodynamics and Applications (BBAA-8th) 

1. Gedikli, E.D. and Dahl, J. Mode shape variation for a low-mode number flexible cylinder subject to vortex-induced vibrations, 2014, 33rd OMAE Conference 

Conference Presentations (abstract only)

14. Pappas, K., Cross, P., Heitmann, T., Rajagopalan, K., Gedikli, E.D., Nihous, G., Druetzler, A. "OWSC Design study for hydraulic PTO optimization and hydro turbine selection", 13-14 September 2022, UMERC+METS 2022 

13. Peel, G., Francis, O., Hendrikse, H. and Gedikli E.D. Navigating the New Arctic through investigating ice-structure interactions, 2022, Oceans Meeting 

12. Li, H., Gedikli, E.D. Multivariate analysis applications in wave-ice-structure interactions, 2022, Oceans Meeting 

11. Druetzler, A., Gedikli, E.D., Nihous, G., Rajagopalan, K., Pappas, K., Ulm, N., Heitmann, T., Huang, Z. Development of highly efficient wave energy converter (WEC) geometries and power take-off (PTO) units at the University of Hawaii, 2022, Oceans Meeting 

10. Li, H., Gedikli, E.D. and Lubbad, R. Experimental investigation of wave-induced bending response pf ice floes, 2020, AGU Fall Meeting

9. Aktosun, E., Gedikli, E.D. and Dahl, J. Wake observations for a circular cylinder undergoing forced two-degrees-of-freedom motions, 2020, 73rd APS DFD

8. Gedikli, E.D. Insights on pressure modes of controlled ice-induced vibrations, 2019, APS March Meeting

7. Dahl, J. and Gedikli, E.D. Active control of flow-induced vibrations of a cylinder using piezo actuators, 2017, 70th APS DFD

6. Chelidze, D., Gedikli E.D. and Dahl, J. Nonlinear modes in flexible cylinders subject to vortex-induced vibrations, 2017, 35th IMAC

5. Thomas, E., Gedikli, E.D. and Dahl J. 3D flow visualization of the wake of a flexible cylinder undergoing VIVs using digital particle image velocimetry, 2016, APS Conference for Undergraduate Women in Physics

4. Dahl, J. and Gedikli E.D. Nonlinear effects on the modal excitation of flexible cables undergoing vortex-induced vibrations, 2016, The Eleventh ONR/MTS Buoy Workshop

3. Gedikli, E.D. and Dahl, J. Hysteretic memory and end plate effects on the response of a flexible cylinder undergoing vortex-induced vibrations, 2015, 68th APS DFD

2. Dahl, J and Gedikli E.D. Three-dimensional flow visualization of a flexible cylinder wake subject to vortex-induced vibrations, 2015, 68th APS DFD

1. Gedikli, E.D. and Dahl, J. Investigation of modal excitation of a flexible cylinder on vortex-induced vibrations, 2015, 66th APS DFD

Publications: Publications
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