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Tharindu Pradeeptha Miyanawala
Tharindu Pradeeptha Miyanawala
Scientist
Verified email at tcoms.sg
Title
Cited by
Cited by
Year
An efficient deep learning technique for the Navier-Stokes equations: Application to unsteady wake flow dynamics
TP Miyanawala, RK Jaiman
arXiv preprint arXiv:1710.09099, 2017
1482017
Partitioned iterative and dynamic subgrid-scale methods for freely vibrating square-section structures at subcritical Reynolds number
RK Jaiman, MZ Guan, TP Miyanawala
Computers & Fluids 133, 68-89, 2016
682016
Decomposition of wake dynamics in fluid–structure interaction via low-dimensional models
TP Miyanawala, RK Jaiman
Journal of Fluid Mechanics 867, 723-764, 2019
552019
Explainable Machine Learning (XML) to predict external wind pressure of a low-rise building in urban-like settings
DPP Meddage, IU Ekanayake, AU Weerasuriya, CS Lewangamage, ...
Journal of Wind Engineering and Industrial Aerodynamics 226, 105027, 2022
492022
A hybrid data-driven deep learning technique for fluid-structure interaction
TP Miyanawala, RK Jaiman
International Conference on Offshore Mechanics and Arctic Engineering 58776 …, 2019
282019
A novel deep learning method for the predictions of current forces on bluff bodies
TP Miyanawala, RK Jaiman
International conference on offshore mechanics and arctic engineering 51210 …, 2018
232018
Self-sustaining turbulent wake characteristics in fluid–structure interaction of a square cylinder
TP Miyanawala, RK Jaiman
Journal of Fluids and Structures 77, 80-101, 2018
182018
Data-driven computing with convolutional neural networks for two-phase flows: Application to wave-structure interaction
X Mao, V Joshi, TP Miyanawala, RK Jaiman
International Conference on Offshore Mechanics and Arctic Engineering 51210 …, 2018
162018
“A lowdimensional learning model via convolutional neural networks for unsteady wake-body interaction
T Miyanawala, R Jaiman
arXiv preprint arXiv:1807.09591, 2018
82018
A hybrid data-driven deep learning technique for fluid-structure interaction
TP Miyanawala, RK Jaiman
arXiv preprint arXiv:1807.09591, 2018
42018
Flow-induced vibrations of a square cylinder with combined translational and rotational oscillations
TP Miyanawala, M Guan, RK Jaiman
International Conference on Offshore Mechanics and Arctic Engineering 49934 …, 2016
42016
Control of flow-induced motion in multi-column offshore platform by near-wake jets
MZ Guan, K Narendran, TP Miyanawala, PF Ma, RK Jaiman
International Conference on Offshore Mechanics and Arctic Engineering 57649 …, 2017
32017
Deep learning techniques for effective prediction of aerodynamic properties of elliptical bluff bodies
WMU Weerasekara, H Gunarathna, W Wanigasooriya, TP Miyanawala
Fluids Engineering Division Summer Meeting 85284, V001T02A053, 2021
22021
Analysis of Flow Induced Vibration of High Head Francis Turbine
GPR Chandima, TP Miyanawala, ID Nissanka
2023 Moratuwa Engineering Research Conference (MERCon), 568-573, 2023
12023
Real-time prediction of hydrodynamic forces and dynamic responses of a generic jack-up platform using deep learning
TP Miyanawala, Y Li, YZ Law, H Santo
Ocean Engineering 306, 118003, 2024
2024
Deep Learning Based Prediction of Hydrodynamic Forces on Offshore Platforms
TP Miyanawala, Y Li, YZ Law, H Santo
ASME 2023 42nd International Conference on Ocean, Offshore and Arctic …, 2023
2023
A hybrid data-driven deep learning technique for fluid-structure interaction
R Jaiman, T Miyanawala
Bulletin of the American Physical Society 65, 2020
2020
Using Deep Neural Networks for Data-Driven Prediction of Fluid Forces on Aerofoils
T Miyanawala, P Henadeera, N Samaraweera, R Jaiman
APS Division of Fluid Dynamics Meeting Abstracts, L20. 001, 2019
2019
DATA-DRIVEN MODELING AND DEEP LEARNING FOR FLUID-STRUCTURE INTERACTION
TP MIYANAWALA
2019
A Machine Learning Model for Unsteady Wake Dynamics
T Miyanawala, R Jaiman
Bulletin of the American Physical Society 63, 2018
2018
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