Journals

1.      Tropical Cyclone Super Resolution using conditional diffusion denoising probabilistic model from mesoscale simulation to LES, Sallam, O., Glaws, A., Sanchez-Gomez, M., Deskos, G., Cortiella, A., King, R. Fürth, M., Environmental Research Communications, Volume 7, Number 12, (2025)

2.      SMART-SEA: Ship Collision Avoidance of Stationary Structures through Integrated Machine Learning Radar Image Detection and High Fidelity Maneuvering Models, Deng, A., Sun, Y., Winden, B., Witherden, F., Vechan, R., Fürth, M., Process Safety and Environmental Protection, Volume 202 Part A, (2025)

3.      Fluid Interaction Study: Hydrodynamic Robot (FISHR) -Expansion of Bioinspired Soft Robotic Fish, Ligman, M., Rezaie, K.A., Shah, R., Sutterfield, B., Keeter, C.*, Fürth, M., HardwareX, Volume 23, (2025)

4.      Dual scale based Residual-Network for turbulent flow sub grid scale resolving: A prior analysis, Sallam, O., Fürth, M., Computer and Fluids, Volume 292 (2025)

5.      A modified overset method in OpenFOAM® for simultaneous motion and deformation: A case study of a flexible flapping foil, Ahmed, K., Hamada, A.A., Chatellier, L., Fürth, M., OpenFOAM Journal, Volume 4, (2024)

6.      Stereo vision based systems for sea-state measurement and floating structures monitoring, Sallam, O., Feng, R., Stason, J.*, Wang, X., Fürth, M., Signal Processing: Image Communication, Volume 122, (2024)

7.      A Comprehensive Review of Hydrodynamic Studies on Fish Schooling, Ligman, M., Lund, J.*, Fürth, M., Bioinspiration and Biomimetics, Volume 19, no 1 (2023)

8.      Guest editorial for the special issue on marine hydrodynamics for innovative design, Hirdairs, S., Fürth, M., Sharma, R., Yang, K., & Skejic, R., Proceedings of the Institution of Mechanical Engineers, Part M: Journal of Engineering for the Maritime Environment, Special issue on "Marine Hydrodynamics for Innovative Design", (2023)

9.      The Application of Laminar Numerical Wave Tank for a Heaving Buoy Hydrodynamics Study in Low-turbulence Nonlinear Standing Waves, Sun, Y., Hamada, A.A., Sallam, O., Winden, B. Fürth, M., Proceedings of the Institution of Mechanical Engineers, Part M: Journal of Engineering for the Maritime Environment, Special issue on "Marine Hydrodynamics for Innovative Design", (2023)

10.   On the use of Fourier Features-Physics Informed Neural Networks (FF-PINN) for Forward and Inverse Fluid Mechanics Problems, Sallam, O., Fürth, M., Proceedings of the Institution of Mechanical Engineers, Part M: Journal of Engineering for the Maritime Environment, Special issue on "Marine Hydrodynamics for Innovative Design", (2023)

11.   Coupled FPSO Roll Motion Response and Tank Sloshing in a Pair of Two Row Cargo Tanks, Igbadumhe, J.-F., Bonoli, J.*, Dzielski, J., Fürth, M., Ocean Engineering, Volume 278, (2023)

12.   Modelling and Analysis of the Leading-Edge Vortex on Flapping Foil Turbines in Swing-Arm Mode, Hamada, A.A., Fürth, M., Journal of Fluids Engineering, Volume 145(6) (2023)

13.   Equivalent linear roll damping of a FPSO coupled with liquid sloshing in a pair of two-row tanks Igbadumhe, J.-F., Sallam, O., Bonoli, J.*, Dzielski, J., Fürth, M., Ocean Engineering, Volume 255, (2022)

14.   The effect of spray deflection on the performance of high speed craft in calm water, Castaldi, L., Osmak, F., Green, M.*, Fürth, M., Bonoli, J.*, Ocean Engineering, Volume 229, (2021).

15.   Optimization Based Concept Design for Autonomous Sailing Vessels, Fraize, J., Fürth, M., Hoffenson, S., Chell, B., Naval Engineers Journal, Volume 133, p. 91, (2021).

16.   A Dissipative Green Function Approach to Modelling Gravity Waves behind Submerged Bodies, Fürth, M., Tan, M., Chen, Z.M., and Arai, M., Journal of Ship Research, Volume 65, Issue 01, p. 72-85, (2021).

17.   Hydrodynamic analysis techniques for coupled seakeeping-sloshing in zero speed vessels, Igbadumhe, J.F. and Fürth, M., Journal of Offshore Mechanics and Arctic Engineering, Volume 143, (2021).

18.   Experimental determination of non-linear roll damping of an FPSO pure roll coupled with liquid sloshing in two-row tanks, Igbadumhe, J.-F., Sallam, O., Fürth, M., Feng, R., Journal of Marine Science and Engineering, Special Issue: Ship Dynamics for Performance Based Design and Risk Averse Operations, Volume 8(8), p. 582, (2020).

19.   Experimental validation of spray deflectors for high speed craft, Molchanov B., Lundmark S., Fürth, M., Green, M.*, Ocean Engineering, Volume 191, 2019

20.   Engaging the Community with a “Green Town” Concept, Cheng, N., Fürth, M., Johnson, M.C., Tay, Z.Y., Shenoi, R.A. and Wilson, P.A. (2013) Energy Procedia, Volume 37, p. 7337.

 

Conferences

1.      Open Water Free-Running Model Testing for High-Speed Craft Hydrodynamics, Deng, A., Perea, T., Sallam O., Fürth, M., (2025), Proceedings of SNAME Maritime Convention, Norfolk, USA

2.      Development of a Scaled Free-Running Model Platform for Comprehensive Hydrodynamic Studies in the Open Water, Wang, X., Sallam, O., Fürth, M., (2024), 35th Symposium on Naval Hydrodynamics, Nantes, France

3.      Development and Testing of a Free Running Model for Experimental Hydrodynamic Study of Planing Boat, Wang, X., Sallam, O., Sunderland, L.*, Fürth, M., (2023), Proceedings of the 13th Symposium on High Speed Marine Vehicles, Naples, Italy

4.      Inference of water waves surface elevation from horizontal velocity components using Physics Informed Neural Networks (PINN), (2023), Sallam,O., Fürth, M., Proceedings of Academicsera International Conference, Cairo, Egypt

5.      High-Speed Craft Model Design, Data Acquisition and Environment Monitoring for Free-Running Tests, Wang, X., Sallam, O., Moulton, D.*, Richardson, J.*, Sunderland, L.*, McKeig, B.*, Fürth, M., (2022) Proceedings of SNAME Maritime Convention, Houston, USA

6.      Development of a Finite Element Solver Including a Level-Set Method for Modeling Hydrokinetic Turbines, Hamada, A.A., Fürth, M., (2022), Fluids Engineering Division Summer Meeting, Toronto, Canada

7.      The Development of a Planing Boat Model and Environmental Measurements for Free Running Model Tests, Wang, X., Sallam, O., Moulton, D.*, Fürth, M., (2022), Proceedings of the 14th International Marine Design Conference, Vancouver, Canada

8.      Numerical Simulation of the effect of wave characteristics on PTO of Point Absorber Wave Energy Converter, Hamada, A.A., Rolen, A.*, McCullough, W.*, Fürth, M., (2022), Proceedings of the 27th Offshore Symposium, Houston, Texas

9.      Prediction of Vessel RAOS: Applications of Deep Learning to Assist in Design Frizzell, J..*, Fürth, M., (2022), Proceedings of the 27th Offshore Symposium, Houston, Texas

10.   Numerical simulation of the effect of buoy geometries on PTO of Wave energy Converters, Hamada, A.A., Fürth, M., (2021), Proceedings of SNAME Maritime Convention, Providence, USA

11.   Ground Effect on Current Energy Harvesting from a Freely-Oscillating Circular Cylinder at Low Reynolds Number, Hamada, A.A., Fürth, M., (2021), Proceedings of OMAE 40th International Conference on Ocean, Offshore & Arctic Engineering, Virtual Conference

12.   Experimental Investigation of FPSO Roll Motion Response Coupled with Sloshing in a Pair of Two Row Cargo Tanks, Igbadumhe, J.F., Fürth, M., Bonoli, J., Dzielski, J., (2021), Proceedings of the Offshore Technology Conference, Houston, Texas

13.   Design of a Free Running High Speed Craft Model for Testing off the Coast Of Galveston, Hamada, A.A., Sallam, O.K., Bonnaure, C.R.*, Rodriguez, P.I.*, Stason, J.*, Fürth, M., (2021), Proceedings of the 26th Offshore Symposium, Virtual, Houston, Texas.

14.   Design and Testing Outline for a Free Running Model of a High Speed Craft, Wang, X., Bonoli, J.*, Cohen, M.*, Fürth, M., (2020), 12th Symposium on High Speed Marine Vehicles, Progress in Marine Science and Technology, Volume 5, p 21-32.

15.   Novel Concepts for Offshore Ocean Farming, Austin, A*., Chieff, A.*, Depardieu, J.*, Gratton, M., Holdaway, T., Lee, W.T., Libera, M.*, Naqiuddin, A., Yusof, F., Townsend, N., Fürth, M., (2019), Proceedings of SNAME Maritime Convention, Tacoma, USA

16.   Multi-objective Reliability-Based Design Optimization of an Autonomous Sailing Vessel, Fraize, J., Ekman, F., Fürth, M., Hoffenson, S., Chell, B., (2019) Proceedings of the Twenty-ninth International Offshore and Polar Engineering Conference, Honolulu, USA,

17.   Conceptual Design of an Autonomous Sailing Vessel, Fraize, J., Fürth, M., (2018), Proceedings of SNAME Maritime Convention, Providence, USA

18.   Design and Preliminary Validation of a Smart Personal Flotation Device, Fraize, J., Fürth, M., Zanotto, D. (2018), Wearable Robotics: Challenges and Trends; Proceedings of the 4th International Symposium on Wearable Robotics, Italy, p. 480

19.   Toward the use of big data in smart ships, Belanger, D.G., Fürth, M., Jansen, K., Reichard, L., (2018), Proceedings of the 13th International Marine Design Conference, Helsinki, Finland, Vol 2, p 897

20.   Development and initial results of an autonomous sailing drone for oceanic research, Dhome, U., Tretow, C., Kuttenkeuler, J., Wängelin, F., Fraize, J.*, Fürth, M., Razola, M., (2018), Proceedings of the 13th International Marine Design Conference, Helsinki, Finland, Vol 1, p 633

21.   Smart PFD: Towards an actively controlled inflatable controlled life jacket to reduce death at sea, Fürth, M., Raleigh, K.*, Duong, T., Zanotto, D., (2018), Proceedings of the 13th International Marine Design Conference, Helsinki, Finland, Vol 2, p 737

22.   Downtime analysis of FPSO, Fürth, M., Igbadumhe, J.F., Tay, Z.Y., Winden, B., (2018), Proceedings of the 13th International Marine Design Conference, Helsinki, Finland, Vol 2, p 1121

23.   Experimental validation of numerical drag prediction of novel spray deflector design, Wielgosz, C., Fürth, M., Datla, R., Chung, U., Rosen, A., Danielsson, J., (2018), Proceedings of the 13th International Marine Design Conference, Helsinki, Finland, Vol 1, p 491

24.   Adaptable Design of an Efficient Naval Combatant Vessel,. Klesaris, G.*, Fürth, M., Oberlander, R.*, Gammie, K.*, Robertson, O.*, (2017), Proceedings of SNAME Maritime Convention, Houston, USA

25.   Potential Flow-based Boundary Element Method for Submerged Rigid 2D Bodies, Raleigh, K.* & Fürth, M. (2017), Proceedings of SNAME Maritime Convention, Houston, USA

26.   Management of Integrity of Ageing Pipelines, Igbadumhe, J.F., Sharp. J.V. & Fürth, M. (2017), Proceedings of  SNAME Maritime Convention, Houston, USA

27.   Sloshing and Swirling Inside a Spherical Tank, Hata, R.*, Arai, M., Fürth, M., (2015), Proceedings of Team 2015, Vladivostok, Russia, p. 346

28.   Numerical Evaluation of Double and Single Integral Versions of the Green Function for Wave Resistance Determination, Fürth, M., Tan, M., Chen, Z.M., Arai, M., (2015), Proceedings of the Twenty-fifth International Offshore and Polar Engineering Conference, Kona, USA, p. 1031

29.   Wave Resistance Prediction Model for Submerged Bluff Bodies, Fürth, M., Tan, M., Chen, Z.M., Arai, M., (2015), Conference Proceedings of the Japan society of Naval Architects and Ocean Engineers, Kobe, Japan

30.   Improvements to a Potential Flow Based Method for Residual Resistance Prediction Used in Early Ship Design Stages, Fürth, M., Tan, M., Chen, Z.M., Arai, M., (2015), Proceedings of the 12th International Marine Design Conference, Tokyo, Japan

31.   The Development of a Dissipative Potential Flow model for Resistance Prediction, Fürth, M., Tan, M., Chen, Z.M., Arai, M., (2014), Conference Proceedings of the Japan society of Naval Architects and Ocean Engineers, Nagasaki, Japan, Volume 19

32.   Determining Wave Resistance Using a Dissipative Potential Flow Model, Fürth, M., Tan, M., Chen, Z.M. (2013), Proceedings of The Twenty-third International Offshore and Polar Engineering Conference, Anchorage, USA, volume 3 p. 726

 

Books

1.      The Key to Successful Carbon Capture and Storage: Engaging the Public , Cheng, N., Fürth, M., Johnson, M.C. and Tay, Z.Y. (2011), Southampton, UK, University of Southampton, 121pp. (The LRET Collegium 2011 Series: Carbon Capture and Sequestration in Ocean Space, 3). ISBN 978-0-854-32929-8