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146 results on '"Tassi, Pablo"'

1. Surrogate-based variational data assimilation for tidal modelling

Author

Mouradi, Rem-Sophia, Goeury, Cédric, Thual, Olivier, Zaoui, Fabrice, and Tassi, Pablo

Subjects
Statistics - Machine Learning, Computer Science - Machine Learning, Physics - Atmospheric and Oceanic Physics, Physics - Fluid Dynamics
Abstract

Data assimilation (DA) is widely used to combine physical knowledge and observations. It is nowadays commonly used in geosciences to perform parametric calibration. In a context of climate change, old calibrations can not necessarily be used for new scenarios. This raises the question of DA computational cost, as costly physics-based numerical models need to be reanalyzed. Reduction and metamodelling represent therefore interesting perspectives, for example proposed in recent contributions as hybridization between ensemble and variational methods, to combine their advantages (efficiency, non-linear framework). They are however often based on Monte Carlo (MC) type sampling, which often requires considerable increase of the ensemble size for better efficiency, therefore representing a computational burden in ensemble-based methods as well. To address these issues, two methods to replace the complex model by a surrogate are proposed and confronted : (i) PODEn3DVAR directly inspired from PODEn4DVAR, relies on an ensemble-based joint parameter-state Proper Orthogonal Decomposition (POD), which provides a linear metamodel ; (ii) POD-PCE-3DVAR, where the model states are POD reduced then learned using Polynomial Chaos Expansion (PCE), resulting in a non-linear metamodel. Both metamodels allow to write an approximate cost function whose minimum can be analytically computed, or deduced by a gradient descent at negligible cost. Furthermore, adapted metamodelling error covariance matrix is given for POD-PCE-3DVAR, allowing to substantially improve the metamodel-based DA analysis. Proposed methods are confronted on a twin experiment, and compared to classical 3DVAR on a measurement-based problem. Results are promising, in particular superior with POD-PCE-3DVAR, showing good convergence to classical 3DVAR and robustness to noise.

Published
2021

2. Physically interpretable machine learning algorithm on multidimensional non-linear fields

Author

Mouradi, Rem-Sophia, Goeury, Cédric, Thual, Olivier, Zaoui, Fabrice, and Tassi, Pablo

Subjects
Physics - Computational Physics, Computer Science - Machine Learning, Physics - Data Analysis, Statistics and Probability, Statistics - Methodology, Statistics - Machine Learning
Abstract

In an ever-increasing interest for Machine Learning (ML) and a favorable data development context, we here propose an original methodology for data-based prediction of two-dimensional physical fields. Polynomial Chaos Expansion (PCE), widely used in the Uncertainty Quantification community (UQ), has long been employed as a robust representation for probabilistic input-to-output mapping. It has been recently tested in a pure ML context, and shown to be as powerful as classical ML techniques for point-wise prediction. Some advantages are inherent to the method, such as its explicitness and adaptability to small training sets, in addition to the associated probabilistic framework. Simultaneously, Dimensionality Reduction (DR) techniques are increasingly used for pattern recognition and data compression and have gained interest due to improved data quality. In this study, the interest of Proper Orthogonal Decomposition (POD) for the construction of a statistical predictive model is demonstrated. Both POD and PCE have amply proved their worth in their respective frameworks. The goal of the present paper was to combine them for a field-measurement-based forecasting. The described steps are also useful to analyze the data. Some challenging issues encountered when using multidimensional field measurements are addressed, for example when dealing with few data. The POD-PCE coupling methodology is presented, with particular focus on input data characteristics and training-set choice. A simple methodology for evaluating the importance of each physical parameter is proposed for the PCE model and extended to the POD-PCE coupling.

Published
2020
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3. Three-Dimensional Sediment Transport Modeling of the Gironde Estuary

Author

Huybrechts, Nicolas, Tassi, Pablo, Klein, Fabrice, Kostianoy, Andrey, Series Editor, Carpenter, Angela, Editorial Board Member, Younos, Tamim, Editorial Board Member, Scozzari, Andrea, Editorial Board Member, Vignudelli, Stefano, Editorial Board Member, Kouraev, Alexei, Editorial Board Member, Gourbesville, Philippe, editor, and Caignaert, Guy, editor

Published
2022
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19. River restoration works design based on the study of early-stage vegetation development and alternate bar dynamics

Author

Li, Jiaze (author), Claude, Nicolas (author), Tassi, Pablo (author), Cordier, Florian (author), Crosato, A. (author), Rodrigues, Stéphane (author), Li, Jiaze (author), Claude, Nicolas (author), Tassi, Pablo (author), Cordier, Florian (author), Crosato, A. (author), and Rodrigues, Stéphane (author)

Abstract

Active geomorphological interventions, such as reprofiling of river bars, are often used to increase bar dynamics and prevent vegetation encroachment. River restoration management should be planned based on the knowledge of what processes will follow the intervention and on the anticipation of the consequences. However, in many cases, the associated physical processes are not clearly identified whereas their consequences on bar morphodynamics are still not fully understood. This study aims to bring new insights into the biomorphodynamics evolution of the riverbed after restoration works by using a 2D biomorphodynamic model developed in the TELEMAC-MASCARET system. It seeks to compare and evaluate the performance of five bar reprofiling scenarios in which the bar elevation is lowered to just below the water level at specified design discharges. The study area is located in the channelized and regulated alpine gravel-bed Isère River (France). Bar dynamics and early stages of vegetation establishment are analyzed for the first 2 years after each restoration scenario. The results indicate that plant colonization would occur in all cases. Overall, maximizing the reduction of bar height is the most effective way to improve the bar dynamics and limit future vegetation encroachment., Green Open Access added to TU Delft Institutional Repository ‘You share, we take care!’ – Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public., Environmental Fluid Mechanics

Published
2023
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22. Why digital water – knowledge application and hydroinformatics?

Author

Gourbesville, Philippe, primary, Freni, Gabriele, additional, Demir, Ibrahim, additional, García Navarro, Pilar, additional, Lin, Gwo-Fong, additional, Boxall, Joby, additional, Brentan, Bruno Melo, additional, Nguyen, Van Thanh-Van, additional, Tassi, Pablo, additional, Hinkelman, Reinhard, additional, Di Cristo, Cristiana, additional, Laucelli, Daniele, additional, Berardi, Luigi, additional, Menapace, Andrea, additional, Meniconi, Silvia, additional, Nohara, Daisuke, additional, Rokstad, Marius, additional, Gilewski, Pawel, additional, Georgescu, Sanda-Carmen, additional, Makropoulos, Christos, additional, Delestre, Olivier, additional, Kuo, Huaizhong, additional, Abily, Morgan, additional, Van Zyl, Jakobus, additional, Popescu, Ioana, additional, Qiang, Ma, additional, Nguyen, Van Thinh, additional, Liu, Dedi, additional, Jang, Dongwoo, additional, Shrestha, Sangam, additional, and Duong, Vo Ngoc, additional

Published
2023
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24. Effects of Vegetation Patch Patterns on Channel Morphology: A Numerical Study

Author

Li, Jiaze (author), Claude, Nicolas (author), Tassi, Pablo (author), Cordier, Florian (author), Vargas-Luna, Andrés (author), Crosato, A. (author), Rodrigues, Stéphane (author), Li, Jiaze (author), Claude, Nicolas (author), Tassi, Pablo (author), Cordier, Florian (author), Vargas-Luna, Andrés (author), Crosato, A. (author), and Rodrigues, Stéphane (author)

Abstract

This study investigates the effects of vegetation patch patterns on the morphological evolution of alluvial river channels at the reach-scale. For this, a new two-dimensional numerical biomorphodynamic model has been developed using the Telemac-Mascaret system. Considering the newest development in the topic, the effects of vegetation on bedload transport are included by extending Einstein's parameters for the sediment transport formula. The model was subsequently validated by published laboratory experiments reproducing alternate bar dynamics with different vegetation establishment scenarios. The validated model was then used to study the influence of vegetation patch patterns on the channel morphological evolution considering the two most observed ones: (a) the filled pattern with plants well distributed within the patch, and (b) the stripe pattern with plants established only along the patch edges. 14 scenarios were simulated in total, including sensitivity analyses on the coefficients of vegetation characteristics. The results indicate that the morphological responses of an alternate bar system to the stripe pattern consist of channel widening, steeper slope and reduced water depth, with increased sediment transport rates. The effects of the filled pattern are similar but weaker. The results also show that with the stripe pattern, the alternate bars tend to migrate toward the centerline forming center bars. Besides, the scroll bars forming downstream are shorter, corresponding to less visible chute channels, compared to the filled pattern. Despite much less vegetation coverage, the stripe pattern decreases the bar elongation rates in a way similar to the filled pattern., Environmental Fluid Mechanics

Published
2022
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28. Limiting the development of riparian vegetation in the Isère River: A physical modelling study

Author

Claude Nicolas, Leroux Clément, Duclercq Marion, Tassi Pablo, and El Kadi Abderrezzak Kamal

Subjects
Environmental sciences, GE1-350
Abstract

Physical modelling experiments are conducted to investigate if a modification of the Isère River (French Alps) hydrology by changing dams management is able to foster riverbed morphodynamic and, thus limiting riparian plant development. The experimental setup is a 1:35 scale, undistorted movable bed designed to ensure the Froude number similarity and initial conditions for sediment particle motion. The physical model is 35 m long, 2.6 m wide, with a sand mixture composed of three grain size classes. Two runs with different flow and bed load conditions are simulated. Preliminary results show an intense riverbed activity when the system reaches a dynamic equilibrium state. Under these conditions, bar mobility is strong enough to limit vegetation encroachment only when water discharges are higher than the discharge of a 5-years flood during more than 10 days. These results indicate that the hydrological characteristics of the Isère River and the actual configuration of the hydropower structures could be not able to release annually the flow conditions needed to control riparian plant development.

Published
2018
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29. Influence of hydrology, sediment supply and sediment gradation on river bar morphodynamics: application to the Loire River at Bréhémont (France)

Author

Cordier Florian, Tassi Pablo, Claude Nicolas, Crosato Alessandra, Rodrigues Stephane, and Van Bang Damien Pham

Subjects
Environmental sciences, GE1-350
Abstract

Rivers inherently show heterogeneous sediment sizes and can also show a strong sediment supply variability in time because of natural episodic events or as a consequence of human activities, which alter the characteristics and dynamics of alluvial bars at the macro-scale. The impact of the combination between sediment size heterogeneity and sediment supply variation, or even with other forcings (i.e. hydrology, channel geometry) remains poorly documented. In this work, a physics-based numerical model is applied on a trained reach of a sandy-gravel bed river to investigate the combination of these parameters on bar morphodynamics. The morphodynamic computations are performed with a two-dimensional depth-averaged hydrodynamic solver, internally coupled to a sediment transport and bed evolution module, which estimate the transport of graded sediment and model bed stratigraphy, respectively. A 1 km long reach of the Loire River at Bréhémont (France) is selected to conduct the numerical investigations. The interaction between several forcing mechanisms induces highly complex bar morphodynamic processes in this area.A comprehensive set of high-definition data is available, which allows to study the river morphodynamics for a succession of three flooding events and a period of low flows. Based on this model, a variety of scenarios is presented with the aim of exploring the implications of sediment gradation, geometrical and boundary forcing effects on in situ bars morphodynamics.

Published
2018
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30. Influence of flood regime on riparian vegetation dynamics in rivers with alternate bars

Author

Jourdain Camille, Claude Nicolas, Antoine Germain, Tassi Pablo, and Cordier Florian

Subjects
Environmental sciences, GE1-350
Abstract

Throughout the 20th century, many rivers worldwide have undergone important riparian vegetation encroachment, which can be problematic in terms of flood risks and biodiversity. Nowadays, controlled floods is often considered as a management option in anthropized rivers, with the aim of limiting vegetation encroachment within river channels, as well as maintaining a diverse habitat by reactivating natural channel dynamics. In this context, this study aims at investigating the influence of different flood regimes on river bar vegetation development and dynamics, focussing on alternate bar systems which are typically found in embanked streams. This question has been addressed through two-dimensional bio-morphodynamic modeling of a simplified gravel bed river reach. Four hydrological scenarios with different flood peak discharges have been run for 50 years. For all scenarios, a steady increase in vegetation cover strongly impacts the evolution of bar morphology, until a relatively stable equilibrium is reached after one to three decades. Numerical results suggest that vegetation development on bars is associated to an increase in bar wavelength and a decrease in bar width. Higher peak flood discharges lead to narrower and longer bars, and a longer adjustment duration. When vegetation cover is fully developed, interannual flood variability seems crucial to maintain bedform and vegetation turnover.

Published
2018
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33. Gaia - a Unified Framework for Sediment Transport and Bed Evolution in Rivers, Coastal Seas and Transitional Waters in the Telemac-Mascaret Modelling System

Author

TASSI, Pablo, primary, Benson, Thomas, additional, Delinares, Matthieu, additional, Fontaine, Jacques, additional, Huybrechts, Nicolas, additional, Kopmann, Rebekka, additional, Pavan, Sara, additional, Pham, Chi-Tuan, additional, Taccone, Florent, additional, and Walther, Régis, additional

Published
2022
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35. Relevance of acoustic methods to quantify bedload transport and bedform dynamics in a large sandy-gravel-bed river

Author

Guern, Jules, Rodrigues, Stéphane, Geay, Thomas, Zanker, Sébastien, Hauet, Alexandre, Tassi, Pablo, Claude, Nicolas, Jugé, Philippe, Duperray, Antoine, and Vervynck, Louis

Abstract

Despite the inherent difficulties in quantifying its value, bedload transport is essential for understanding fluvial systems. In this study, we assessed different indirect bedload measurement techniques with a reference direct bedload measurement in a reach of a large sandy-gravel-bed river. An acoustic Doppler current profiler (aDcp), the dune tracking method (DTM) and hydrophone measurement techniques were used to determine bedload transport rates by using calibration with the reference method or by using empirical formulas. This study is the first work which attempted to use a hydrophone to quantify bedload rates in a large sandy-gravel-bed river. Results show that the hydrophone is the most efficient and accurate method for determining bedload fluxes in the Loire River. Although further work is needed to identify the parameters controlling self-generated sediment noise, the calibration procedure adopted in this study allows a satisfactory estimation of bedload transport rates. Moreover, aDcp and hydrophone measurement techniques are accurate enough to quantify bedload variations associated with dune migration.

Published
2021

36. NavTEL: an open-source tool for ship routing and underkeel clearance management in estuarine channels

Author

Orseau, Sylvain, Huybrechts, Nicolas, Tassi, Pablo, Kaidi, Sami, Klein, Fabrice, Centre de Recherche de Royallieu, Sorbonne Université (SU)-Université de Technologie de Compiègne (UTC), Laboratoire d'Hydraulique Saint-Venant / Saint-Venant laboratory for Hydraulics (Saint-Venant), École des Ponts ParisTech (ENPC)-Centre d'Etudes et d'Expertise sur les Risques, l'Environnement, la Mobilité et l'Aménagement (Cerema)-EDF R&D (EDF R&D), EDF (EDF)-EDF (EDF), and Grand Port Maritime de Bordeaux

Subjects
[PHYS]Physics [physics]
Abstract

International audience; NavTEL is a new decision support tool for the short-term (36 h) planning of ship routes and the management of underkeel clearance in estuarine navigation channels. NavTEL uses a deterministic method and is coupled with the TELEMAC-MASCARET system for numerical modeling of hydrodynamic and sediment transport in the estuary with a two-dimensional approach. In its present version, NavTEL allows (i) daily simulations to be automatically prepared and launched; and (ii) simulation outputs to be postprocessed to find the safest ship route and to predict underkeel clearances at specified locations. As the reliability of the results relies on the accuracy of water-level predictions, numerical simulations were performed with measured river discharges, storm surge forecasts, and time-varying friction coefficients for bed roughness. Even though NavTEL was initially developed for the Atlantic Port of Bordeaux located in the Gironde Estuary, its kernel has a modular structure allowing the tool to be adjusted to different port configurations and types of water bodies. Finally, examples of graphical outputs and reports generated by NavTEL are shown for an application of a container ship coming into the port of Bordeaux.

Published
2021
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39. Porting TELEMAC-MASCARET to OPENPOWER and experimenting GPU offloading to accelerate the TOMAWAC module

Author

Grasset, Judicaël, Longshaw, Stephen M., Moulinec, Charles, Emerson, David R., Audouin, Yoann, Tassi, Pablo, and TELEMAC-MASCARET Core Group

Subjects
telemac conference 2019, Hydrodynamik (532.5)
Abstract

In this paper the state of porting TELEMACMASCARET on the OPENPOWER architecture with different compilers is shown. A port to GPUs with OpenMP and OpenACC of a computationally intensive subroutine of TOMAWAC is also explained and the performance benefits shown, a comparison with an x86-64 machine is also presented. Finally ongoing work is presented and discussed: the port of a complete and more challenging test-case, a triple coupling case from EDF.

Published
2020
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40. Sensitivity of tidal modelling in coastal configurations: an uncertainty study based on field-measurement reduction

Author

Mouradi, Rem-Sophia, Goeury, Cédric, Tassi, Pablo, Zaoui, Fabrice, Thual, Olivier, TELEMAC-MASCARET Core Group, MOURADI, Rem-Sophia, CECI, CERFACS / CNRS (CECI), Centre National de la Recherche Scientifique (CNRS), Laboratoire National d’Hydraulique et Environnement (EDF R&D LNHE), EDF R&D (EDF R&D), and EDF (EDF)-EDF (EDF)

Subjects
[SDE] Environmental Sciences, [SDE]Environmental Sciences, Hydrodynamik (532.5), [MATH] Mathematics [math], [MATH]Mathematics [math]
Abstract

Webinaire; International audience

Published
2020

43. Bar pattern and sediment sorting in a channel contraction/expansion area: Application to the Loire River at Bréhémont (France)

Author

Cordier, Florian (author), Tassi, Pablo (author), Claude, Nicolas (author), Crosato, A. (author), Rodrigues, Stéphane (author), Pham Van Bang, Damien (author), Cordier, Florian (author), Tassi, Pablo (author), Claude, Nicolas (author), Crosato, A. (author), Rodrigues, Stéphane (author), and Pham Van Bang, Damien (author)

Abstract

Bars are large sediment deposits alternating with deeper areas that arise from alluvial river bed instability and forcing. The present study aimed at investigating the combined influence of flow and longitudinal width variations on the co-evolution between bar pattern and sediment sorting in a sandy-gravel river reach. To this goal, a fully non-linear 2D numerical model was developed to reproduce the morphodynamic behavior of bars in a reach of the Loire River consisting in a typical channel expansion/contraction. Numerical results showed that varying water discharge promoted a competition between low and high bar modes: i.e., from alternate to multiple bar patterns. Low bar modes were associated with coarse sediment over bar tops and fine sediment in pools, and this sorting pattern was inverted for higher bar modes. Surface sediment was coarser and the degree of sediment sorting was greater after periods of low than high flow. Due to high sediment mobility, sediment sorting did not significantly modify bar morphodynamics., Accepted author manuscript, Environmental Fluid Mechanics

Published
2020
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50. Introducing GAIA, the brand new sediment transport module of the TELEMAC-MASCARET system

Author

Audouin, Yoann, Benson, Thomas, Delinares, Matthieu, Fontaine, Jacques, Glander, Boris, Huybrechts, Nicolas, Kopmann, Rebekka, Leroy, Agnès, Pavan, Sara, Chi-Tuân Pham, Taccone, Florent, Tassi, Pablo, Walther, Regis, and TELEMAC-MASCARET Core Group

Subjects
telemac conference, Hydrodynamik (532.5)
Abstract

GAIA is the brand new open-source, sediment transport and bed evolution module of the TELEMAC-MASCARET modelling system. GAIA is based on the historical sediment transport module SISYPHE, where a large number of improvements, corrections and optimizations have been implemented. Thanks to its unified framework, GAIA efficiently manages different sediment classes, sand-mud mixtures, etc. for both 2D and 3D spatial dimensions.

Published
2019

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