Brühl, M., P. J. Prins, S. Ujvary, I. Barranco , S. Wahls and P. L.-F. Liu (2022).
Comparative analysis of bore propagation over long distances using conventional linear and KdV-based nonlinear Fourier transform.
Wave Motion (WAMOT 102905), 27 pp. DOI: doi.org/10.1016/j.wavemoti.2022.102905
Teutsch, I., M. Brühl, R. Weisse and S. Wahls (2022).
Contribution of solitons to enhanced rogue wave occurrence in shallow water: a case study in the southern North Sea. Nat. Hazards Earth Syst. Sci. Discuss. 2022: 1-37. DOI: doi.org/10.5194/nhess-2022-28
Conference Proceedings
Brühl, M. and S. Wahls (2022).
Characterisation of Ship-Induced Long-Period Primary Waves Using Nonlinear Fourier Transform (KdV-NFT) (OMAE2022-78098). 41th International Conference on Ocean, Offshore & Arctic Engineering (OMAE2022). Hamburg, Germany, June 5-10, 2022
de Koster, P., M. Brühl and S. Wahls (2022).
Water-Depth Identification From Free-Surface Data Using the Kdv-Based Nonlinear Fourier Transform (OMAE2022-78882). 41th International Conference on Ocean, Offshore & Arctic Engineering (OMAE2022).
Hamburg, Germany, June 5-10, 2022
Lee, Y.-C., M. Brühl and S. Wahls (2022).
Predicting Rogue Waves Using the Nonlinear Fourier Transform (OMAE2022-79838). 41th International Conference on Ocean, Offshore & Arctic Engineering (OMAE2022). Hamburg, Germany, June 5-10,2022
Brühl, M.; Wahls. S.; Tissier, M. (2021).
Nonlinear spectral analysis of wave trains over fringing reefs. Coastal Dynamics 2021, June 28 - July 2, 2021, Delft, The Netherlands. Conference presentation.
Lee, Y. C.; Brühl, M.; Doong, D. J.; Wahls, S. (2021).
Nonlinear Fourier analysis of rogue wave measurements. Coastal Dynamics 2021, June 28 - July 2, 2021, Delft, The Netherlands. Conference presentation.
Zhang, H.; Wahls, S.; Brühl, M. (2021).
Analysis of nonlinear ship-induced 3D wave fields using nonlinear Fourier transform. Coastal Dynamics 2021, June 28 - July 2, 2021, Delft, The Netherlands. 6 pp.
Brühl, M.; Wahls, S.; Barranco Granged, I.; Liu, P. L. F. (2020).
Analysis of bore characteristics using KdV-based nonlinear Fourier transform (OMAE2020-19074). 39th International Conference on Ocean, Offshore & Arctic Engineering (OMAE2020), June 28 - July 3, Fort Lauderdale, FL, USA.
Wahls, S.; Brühl, M.; Fan, Y.-M.; Huang, C.-J. (2020).
Nonlinear Fourier analysis of free-surface buoy data using the software library FNFT (OMAE2020-18676). 39th International Conference on Ocean, Offshore & Arctic Engineering (OMAE2020), June 28 - July 3, Fort Lauderdale, FL, USA.
Heller, V.; Chen, F.; Brühl, M.; Gabl, R.; Chen, X.; Wolters, G.; Fuchs, H. (2019):
Large-scale experiments into the tsunamigenic potential of different
iceberg calving mechanisms, Nature Scientific Reports 9(1):1-10, DOI:
10.1038/s41598-018-36634-3.
Kreyenschulte, M.; Schürenkamp, D.; Kühling, V.; Brühl, M.; Goseberg, N.; Schüttrumpf, H. (2019):Wellenbelastung und Stabilität hydraulisch gebundener Deckwerke. Die Küste, Heft 87, 8. doi:DOI: 10.18171/1.087105
Conference proceedings
Heller, V.; Attili, T.; Chen, F.; Brühl, M.; Gabl, R.; Chen, X.; Wolters, G., Fuchs, H. (2019):
Large-scale experiments of tsunamis generated by iceberg calving, Proc. 38th IAHR World Congress, Panama City, Panama.
Heller, V.; Attili, T.; Chen, F.; Brühl, M.; Gabl, R.; Chen, X.; Wolters, G., Fuchs, H. (2019):
Larger-scale iceberg-tsunami experiments, Proc. Of the HYDRALAB+ Joint User Meeting, Bucharest, Bulgaria.
Schendel, A., Helfers, B., Schlurmann, T., Schimmels, S., Brühl, M., Jordan, L., Goseberg, N., Ebers-Ernst, J. (2019):
GWKplus: Erweiterung des Großen Wellenkanals. Hintergrund, Umsetzung und Ziele, HTG Kongress 2019 Lübeck
Brühl, M.; Becker, M. (2018):
Analysis of subaerial landslide data using nonlinear Fourier transform
based on Korteweg-deVries equation (KdV-NLFT). Journal of Earthquake and
Tsunami (JET), 21 pp, DOI: 10.1142/S179343111840002X.
Nesteruk, I.; Brühl, M.; Möller, T. (2018):
Testing a special shaped body of revolution similar to dolphins trunk. Research Bulletin of the National Technical University of Ukraine "Kyiv Politechnic Institute" – KPI Science News, No. 2 (2018), 11 p., DOI:
10.20535/1810-0546.2018.2.129140.
Conference proceedings
Brühl, M.; Büchner, E.; Zhang, H. (2018):
Amplitudes of landslide-generated impulse waves from nonlinear Fourier
transform in function of the slide characteristics. 7th International
Conference on the Application of Physical Modelling in Port and Coastal
Engineering and Science (Coastlab18), Santander, Spain.
Brühl, M.; Goseberg, N.; Jordan, L.-B.; Jürgensen, K.; Kudella, M.; Mennenga, J.; Miranda-Lange, M.; Müller, J.; Schendel, A.; Schimmels, S.; Schlurmann, T.; Weisheit, J. (2018):
Design and operation of a new small-scale wave-current flume, 9th Chinese-German Joint Symposium on Hydraulic and Ocean Engineering (CGJoint 2018), Tainan, Taiwan.
Brühl, M.; Shet, R. (2018):
Time-frequency analysis of 3D ship-wave fields in maritime waterways. 36th International Conference on Coastal Engineering (ICCE2018).
Kreyenschulte, M.; Kühling, V.; Brühl, M.; Schüttrumpf, H. (2018):
Wellen-Bauwerks-Interaktion bei mörtelvergossenen Schüttsteindeckwerken. Tagungsband zum 48. Internationalen Wasserbau-Symposium Aachen und 6. Siegener Symposium, "Sicherung von Dämmen, Deichen und Stauanlagen", 18./19. Januar 2018, S. 27-35.
Kreyenschulte, M.; Schüttrumpf, H.; Goseberg, N.; Kühling, V.; Brühl, M. (2018):
Wave Loading on Mortar-Grouted Riprap Revetments: Full-Scale Model Tests. In: The 9th Chinese-German Joint Symposium on Hydraulic and Ocean Engineering: CGJoint 2018. Tainan, Taiwan, 11.-17.11.2018, S. 343-350.
Kühling, V.; Kreyenschulte, M.; Schüttrumpf, H.; Brühl, M. (2018):
Wave-induced loads on hydraulic bounded revetments: Results from small-scale and large-scale model tests. 7th International Conference on the Application of Physical Modelling in Port and Coastal Engineering and Science (Coastlab18), Santander, Spain.
Schimmels, S., Schlurmann, T., Brühl, M., Goseberg, N. (2018):
Large scale experiments in coastal and ocean engineering - A review of 35 years of physical model tests in the Large Wave Flume (Grosser Wellenkanal, GWK). Proceedings of the 9th Chinese-German Joint Symposium on Hydraulic and Ocean Engineering, CGJOINT 2018, NCKU Tainan, Taiwan.
Schlurmann, T., Brühl, M., Goseberg, N., Schendel, A., Schimmels, S. (2018):
marTech - Development of Renewable Maritime Technologies for Reliable and Sustainable Energy Supply, Proceedings of the 9th Chinese-German Joint Symposium on Hydraulic and Ocean Engineering, CGJOINT 2018, NCKU Tainan, Taiwan.
Zhang, H.; Brühl, M. (2018):
Generation of transient extreme waves: Application of direct KdV-based nonlinear Fourier transform, 9th Chinese-German Joint Symposium on Hydraulic and Ocean Engineering (CGJoint 2018), Tainan, Taiwan.
Zhang, H.; Brühl, M. (2018):
Generation of extreme transient waves in experimental models. 36th International Conference on Coastal Engineering (ICCE2018)
Zhang, H.; Brühl, M. (2017):
Generierung extremer transienter Wellen im experimentellen Modell. Mitteilungen des Forschungsinstituts Wasser und Umwelt der
Universität Siegen, Heft 10 (19. Treffen junger WissenschaftlerInnen deutschsprachiger Wasserbauinstitute (JuWi 2017)), S. 5-8.
Conference proceeding
Brühl, M. (2017):
Application of KdV-NLFT on subaerial landslide wave data. 9th South China Sea Tsunami Workshop (SCSTW-9), Qingdao, China, 22-25 October 2017.
Brühl, M.; Becker, M. (2017):
Analysis of impulse waves from subaerial landslide experiments using nonlinear Fourier transform (KdV-NLFT). International Short Course and Conference on Applied Coastal Research 2017, 03.-06. October 2017, Santander, Spain, 12 pp.
Kreyenschulte, M.; Kühling, V.; Brühl, M.; Schüttrumpf, H. (2017):
Permeability of mortar-grouted riprap revetments: Full-scale model tests. International Short Course and Conference on Applied Coastal Research 2017, 03.-06. October 2017, Santander, Spain, 9 pp.
Zhang, H.; Brühl, M. (2017):
Generation of extreme transient waves in experimental model: Nonlinear Fourier transform of wave gauge data. International Short Course and Conference on Applied Coastal Research (SCACR2017), 3-6 October, 2017, Santander, Spain, 12 pp.
Other publications
Dette, H.H.; Strusinska-Correia, A.; Brühl, M. (2017):
Untersuchungen zur Entwicklung des Küstenvorfeldes im Bereich der
Förderplattform Mittelplate - PHASE III: 12/2015 - 12/2016. Technische
Universität Braunschweig, Leichtweiß-Institut für Wasserbau, Abt.
Hydromechanik und Küsteningenieurwesen, LWI-Bericht Nr. 1076,
Braunschweig, 115 S
Schürenkamp, D.; Mojabi, S.M.; Brühl, M.; Strusinska-Correia, A. (2017):
Investigations on functionality and stability of submerged breakwaters
for coastal protection (InFuSSuB) - API and APII: Theoretical and
numerical investigations. Final report. LWI-Bericht 1077.
Leichtweiß-Institute for Hydraulic Engineering and Water Resources,
Division of Hydromechanics and Coastal Engineering, TU Braunschweig,
Braunschweig, 158 pp.
Brühl, M. (2017):
Hydraulic Flume Model Test for Port of Hanstholm, West Breakwater
(PoHaWB). Final report. LWI-Bericht 1081. Leichtweiß-Institute for
Hydraulic Engineering and Water Resources, Division of Hydromechanics
and Coastal Engineering, TU Braunschweig, Braunschweig, 39 pp.
Brühl, M.; Oumeraci, H. (2016):
Analysis of long-period cosine-wave dispersion in very shallow water
using nonlinear Fourier transform based on KdV equation. Applied Ocean
Research, 61, 81-91. doi: 10.1016/j.apor.2016.09.009
Brühl, M. (2018):
Reisebericht von der 33rd International Conference on Ocean, Offshore and Arctic Engineering (OMAE2014) in San Francisco, USA. Heide i. Holst., Germany: Die Küste. Archiv für Forschung und Technik an der Nord- und Ostsee, 84, 7 pp.
Conference proceeding
Brühl, M. (2016):
Analysis and prediction of nonlinear dispersion of long-period waves in shallow water. Chinese‐German Joint Symposium on Hydraulic and Ocean Engineering, September 18‐24, 2016, Qingdao, China
Brühl, M. (2015):
Direct and inverse nonlinear Fourier transform based on the Korteweg‐deVries equation (KdV‐NLFT) – A spectral analysis of nonlinear surface waves in shallow water. LWI‐Mitteilungen des Leichtweiß‐Institut für Wasserbau, Technische Universität Braunschweig, Braunschweig, Germany, Heft 163/2015, 182 S.
Other publications
Radespiel, R.; Brühl, M. (2015):
Grundlagen der Strömungsmechanik. Vorlesungsskript, Bachelor Maschinenbau. Vollständig überarbeitete Ausgabe, WS 2015/2016, 246 pp.
Brühl, M. (2015):
"Die Art und Weise der Übung war der reinste Kindergarten" - Über Motivation und Frustration eines Dozenten. Vortrag im Rahmen des TU-Teachers-Slam zum 3. Tag der Lehre an der TU Braunschweig, 03.06.2015.
Brühl, M. (2015):
Direct and inverse nonlinear Fourier transform based on the Korteweg-deVries equation (KdV-NLFT) - A spectral analysis of nonlinear surface waves in shallow water. Video presentations on youtube in English or German. The slides can be downloaded here.
Brühl, M.; Oumeraci, H. (2014):
Identifizierung von transienten Wellen im Flachwasser mit der KdV-basierten nichtlinearen Fourier-Transformation (KdV-NLFT), Mitteilungen des Leichtweiß-Instituts für Wasserbau, Heft 161/2014 (16. Juwi-Treffen, July 30 - August 1, Braunschweig, Germany). S. 67-74
Conference proceedings
Brühl, M.; Oumeraci, H. (2014):
Identification of transient waves in shallow water using the KdV-based
nonlinear Fourier transform (KdV-NLFT). 7th Chinese-German Joint
Symposium on Hydraulic and Ocean Engineering (CGJOINT), September 07-12,
2014, Hannover, Germany.
Brühl, M.; Oumeraci, H. (2014):
Analysis of propagation of long waves in shallow water using the
nonlinear Fourier transform (NLFT). Proceedings of the ASME 2012 33rd
International Conference on Ocean, Offshore and Arctic Engineering (OMAE
2014), OMAE2014-24165, June 8-13, 2014, San Francisco, USA, 9 pp.
Brühl, M.; Oumeraci, H. (2014):
Nonlinear Fourier transform (NLFT) for the identification of transmitted
solitons behind submerged reefs: The reconstruction of the original
data Proceedings of the ASME 2012 33rd International Conference on
Ocean, Offshore and Arctic Engineering (OMAE 2014), OMAE2014-24162, June
8-13, 2014, San Francisco, USA, 9 pp.
Brühl, M.; Oumeraci, H. (2014):
Identification and analysis of transient waves in shallow water using
the KdV-based nonlinear Fourier transform (KdV-NLFT). EGU General
Assembly 2014, EGU2014-16174, 27 April - 02 May 2014, Vienna, Austria, 1
p.
Brühl, M.; Oumeraci, H. (2014):
Die nichtlineare Fourier-Transformation im Wasserbau: Grundlagen und
Anwendungsbeispiele. 44. Internationales Wasserbau-Symposium Aachen
(IWASA 2014), Aachen, Germany, pp. 1-16. (External link: IWASA online
paper)
Wöffler, Theide; Brühl, Markus; Uliczka, Klemens; Schüttrumpf, Holger (2014):
Kleinmaßstäbliche Untersuchungen zur Erfassung der hydraulischen Stabilität von Strombauwerken. In: HTG-Kongress 2014, Berlin, 21. - 23. Mai 2014. Hamburg: HTG. S. 50-62.
Other publications
Brühl, M. (2014):
Direct and inverse nonlinear Fourier transform based on the Korteweg-deVries equation (KdV-NLFT) - A spectral analysis of nonlinear surface waves in shallow water (submitted 15.11.2013, defended 28.02.2014). Dissertation, Leichtweiß-Institute for Hydraulic Engineering and Water Resources, Dept. of Hydromechanics and Coastal Engineering, Technische Universität Braunschweig, Braunschweig, Germany. (Videos of the presentation are available here: German, English. The slides can be downloaded here.)
Oumeraci, H.; Brühl, M. (2013):
Schiffserzeugte langperiodische Belastung zur Bemessung der Deckschichten von Strombauwerken an Schifffahrtsstraßen, Arbeitspaket AP5: Entwicklung eines 3D-CFD/CSD-Modells und numerische Stabilitätsuntersuchungen (Numerische Simulation), Abschlussbericht (Entwurf, Stand 28.08.2013), . Technische Universität Braunschweig, Leichtweiß-Institut für Wasserbau (LWI), Abt. Hydromechanik und Küsteningenieurwesen, LWI-Bericht Nr. 1034, Braunschweig, 208 S.
Oumeraci, H.; Brühl, M. (2013):
Schiffserzeugte langperiodische Belastung zur Bemessung der Deckschichten von Strombauwerken an Schifffahrtsstraßen, Arbeitspaket 3: Bestimmung der bemessungsrelevanten Parameter schiffserzeugter Wellen in Seeschifffahrtsstraßen (Parametrisierung der Schiffswellen), Analyse der vorhandenen Schiffswellenmessungen in Seeschifffahrtsstraßen (Abschlussbericht). Technische Universität Braunschweig, Leichtweiß-Institut für Wasserbau (LWI), Abt. Hydromechanik und Küsteningenieurwesen, LWI-Bericht Nr. 1016, Braunschweig, 164 S.
Brühl, M.; Oumeraci, H. (2012):
Nonlinear decomposition of transmitted wave trains from soliton fission using "Nonlinear Fourier transform (NLFT)": The spectral basic components. Proceedings of the ASME 2012 31st International Conference on Ocean, Offshore and Arctic Engineering (OMAE 2012), July 1-6, 2012, Rio de Janeiro, Brasil, 10 pp.
Brühl, M.; Oumeraci, H. (2011):
Application of "nonlinear Fourier transform (NLFT)" for the analysis of soliton fission behind submerged reefs with finite width. Proceedings of the ASME 2011 30th International Conference on Ocean, Offshore and Arctic Engineering (OMAE 2011), June 19-24, 2011, Rotterdam, The Netherlands, 8 pp.
Brühl, M.; Oumeraci, H. (2010):
Nonlinear Fourier Transform (NLFT) for wave analysis and nonlinear processes in wave-structure interaction. 5th Workshop on Water Waves, Naval Architecture and Ocean Engineering, September 30th - October 1st, 2010, Technische Universität Berlin, Germany. Conference presentation.
Lieske, M.; Brühl, M.; Oumeraci, H. (2010):
Analysis of soliton fission over submerged reefs using the “Nonlinear Fourier Transform (NLFT)”. Conference presentation, 5th Workshop on Water Waves, Naval Architecture and Ocean Engineering, September 30th - October 1st, 2010, Technische Universität Berlin, Germany. Conference presentation.
Brühl, M.; Oumeraci, H. (2010):
Analysis of soliton fission over a submerged structure using "Nonlinear Fourier Transform (NLFT)". Proceedings of the International Conference on Coastal Engineering (ICCE 2010), No. 32(2010), Paper #: waves.59, Shanghai, China, 12 pp. Retrieved from journals.tdl.org/ICCE/.
Brühl, M.; Oumeraci, H. (2009):
Nichtlineare Welleneffekte über getauchten Strukturen unter Verwendung verschiedener Analyseverfahren - Methodik und erste Ergebnisse. 7. FZK-Kolloquium, FZK, Hannover, Germany. (External link: Conference presentation on FZK website)
Oumeraci, H.; Kortenhaus, A.; Brühl, M.; Brinkmann, F.; Lambrecht, H.-J. (2008):
Theoretische und versuchstechnische Bearbeitung der Wellenüberlauf- und Belastungssituation der Strandmauer am Weststrand von Norderney; Nordwest; . Berichte Leichtweiß-Institut für Wasserbau, Technische Universität Braunschweig, Nr. 963, Technische Universität Braunschweig, Braunschweig, 199 pp.
Brühl, M.; Kortenhaus, A.; Oumeraci, H. (2007):
Wellenbelastung des historischen Deckwerks am Westende von Baltrum. Proceedings of the 6th FZK-Kolloquium, Hannover, Germany.
Brühl, M.; Oumeraci, H. (2005):
Comparative analysis of wave transmission over an artificial reef using FFT, Wavelet and Hilbert-Huang-Transform. Ocean Waves Measurement and Analysis, International Symposium (WAVES 2005), Volume 1, Madrid, Spain, pp. 568-580.
Brühl, M.; Oumeraci, H. (2005):
Zeit-Frequenzanalyse der Seegangstransformation an Bauwerken. 5. FZK-Kolloquium, FZK, Hannover, Germany, S. 45-50.
Oumeraci, H.; Kortenhaus, A.; Brühl, M.; Uthschinski, K. (2004):
Theoretische und versuchstechnische Bearbeitung der Wellenüberlauf- und Belastungssituation des Deckwerkes am Weststrand von Norderney im Bereich der ‚Milchbar'. Leichtweiß-Institut für Wasserbau, Technische Universität Braunschweig, Abschlussbericht, Braunschweig, Germany, 82 S.
Oumeraci, H.; Kortenhaus, A.; Hinz, M.; Brühl, M. (2004):
Theoretische und versuchstechnische Bearbeitung der Wellenüberlauf- und Belastungssituation der Strandmauer am Weststrand von Norderney (NORWEST) - Theoretische Bearbeitung. Berichte Leichtweiß-Institut für Wasserbau, Technische Universität Braunschweig, Nr. 898, 1. Zwischenbericht, Braunschweig, Germany, 82 S.
Brühl, M. (2003):
Machbarkeit der "Inverse Scattering-Transform" als "nichtlineare Fourier-Transformation" für die Analyse gemessener Seegangsdaten im Wellenkanal, Diplomarbeit. Diplomarbeit am Leichtweiß-Institut für Wasserbau, Fachbereich Bauingenieurwesen, Technische Universität Braunschweig, Braunschweig, Germany, 148 S.
Brühl, M. (2002):
Die "Empirical Mode Decomposition" als Bestandteil der Hilbert-Huang-Transformation. Entwurf am Leichtweiß-Institut für Wasserbau, Fachbereich Bauingenieurwesen, Technische Universität Braunschweig, Braunschweig, Germany.