2023Activity reportProject-TeamLEMON

3.1.1 Upscaled urban flood modeling

Participants: Carole Delenne, Pascal Finaud-Guyot, Vincent Guinot, Antoine Rousseau.

Collaboration: Brett Sanders (UCI, USA), Sandra Soarez Frazao (UCL, Belgium).

3.1.2 Large time steps methods for hydraulic processes

Participants: Pascal Finaud-Guyot, Vincent Guinot, Antoine Rousseau.

Collaboration: Philippe Helluy (Univ Strasbourg & Inria TONUS).

In line with fast changes in the whole society, our scientific community is more and more sensitive to the environmental footprint of research. We already claim that porosity models can be valued for their sobriety, thanks to coarse space meshes and low computational cost simulations. We also wish to develop a time discretization strategy that will continue to lighten our algorithms. A first theoretical work has been carried out for 1D models, we wish to generalize it to 2D models and implement it into operational models.

Discussions have started with team TONUS in Strasbourg, as "CFL-less" methods are also used by the team for kinetic-relaxation approximation 40.

3.1.3 Street-buildings interactions during flood events

Participants: Pascal Finaud-Guyot, Cécile Choley.

The improvement of realistic flood scenarios also requires the addition of specific processes: we will continue the modeling of interaction with buildings (work initiated by Cécile Choley’s PhD thesis) and develop the transport of log jams in an urban flow, using the functionalities allowed by the concept of porosity to better take into account the feedback of log jams on the flow (crowding process).

3.1.4 Coupling coastal ocean and urban flood models

Participants: Antoine Rousseau, Jose Daniel Galaz Mora.

Collaboration: Maria Kazolea (Inria, team CARDAMOM).

Finally, we wish to continue to couple the numerical models developed by the team with other processes: relying on collaborations external to LEMON (as is currently the case with the SURF project of Inria for the Green-Naghdi / shallow water coupling) or recruiting new permanent members, we will use the team's strengths in free-surface hydraulics and in model coupling to explore new fields of application.

3.2.1 Data fusion and parameter estimation

Participants: Carole Delenne.

Macroscopic models such as those developed by the team have advantages in terms of computational cost, but also in terms of time saved in the processing of the mesh which does not need to describe complex geometries. However, these models require new parameters that reflect the statistical properties of the domain geometry or the topography/bathymetry of the modeled area. The directional and connectivity properties of the environment have to be estimated from geographical data. In the continuity of Vita Ayoub’s thesis 34, LEMON will work on the development of methods for the automatic estimation of these parameters from cartographic or Earth observation data. The objective will be to set up a methodology for continuous acquisition and automatic fusion of new information in order to improve the mapping of the study area as often as the hydrodynamic models require it.

3.2.2 Space-time variability of rainfalls

Participants: Nicolas Meyer, Gwladys Toulemonde, Chloe Serre Combe.

Collaboration: Thomas Opitz (INRAe, Avignon), Philippe Naveau (LSCE, CNRS, Gif-sur-Yvette).

Understanding the spatial and temporal variability of rainfalls that can generate flash floods is a major challenge. This knowledge is essential to build stochastic methods for simulating scenarios integrating realistic spatiotemporal extreme rainfall fields. This modeling must be done keeping in mind the importance of the physical interpretation of data simulated with such models. We aim to develop, propose, study and implement models adapted to the presence of extreme values taking into account the associated complex dependencies. One difficulty lies in modeling the transitions (in time and space) between no rain, regular rainfall and extreme rainfall. Reproducing spatial or temporal non-stationarity in the intensities as well as in the dependency structure is also a challenge we wish to address.

3.2.3 Multivariate dependence

Participants: Nicolas Meyer, Gwladys Toulemonde, Alexis Boulin, Samuel Valiquette.

Collaboration: Elena Di Bernardino (LJAD, UniCA), Thomas Laloé (LJAD, UniCA), Eric Marchand (Université de Sherbrooke), Frédéric Mortier (Cirad, Montpellier), Jean Peyhardi (IMAG, Université de Montpellier).

In the medium term, we want to develop appropriate risk measures that can then be used to assess the potential impacts of extreme rainfall events. Multivariate risk measures should be considered, as flood risk indicators are usually derived by combining different hydraulic variables. We would be interested in the estimation of risk sets, the idea being in the simplest framework to identify all the combinations of water height/velocity values which would lead to a risk higher than a fixed level. More generally, the question of modeling dependence in statistics, and in particular when we consider extremes, is one to which we want to contribute, as is the consideration of compound events.

3.2.4 Clustering and sparsity models for rainfall

Participants: Nicolas Meyer, Gwladys Toulemonde, Alexis Boulin.

Collaboration: Elena Di Bernardino (LJAD, UniCA), Thomas Laloé (LJAD, UniCA).

Finally, our aim is to model forcing terms (rainfall, wind, etc.) for a large number of stations and with a small time scale. In addition, many covariates will be included in the models to better explain the phenomena. This means that we will deal with high dimensional data and with potentially many parameters. This is a limitation in terms of computation time and from a statistical point of view. We will therefore continue to propose methods to reduce the dimension: grouping stations for which the rainfall has a similar behavior (clustering) and highlighting a few significant parameters that are sufficient to explain the model (sparsity).

7.1.1 SW2D-Lemon

• Name:
  Shallow Water 2D - Lemon C++ software
• Keywords:
  Numerical simulations, Shallow water equations, Upscaling, Finite volume methods
• Scientific Description:
  SW2D-LEMON (SW2D for Shallow Water 2D) is developed by the LEMON research team in Montpellier. SW2D-LEMON is a multi-model software focusing on shallow water-based models. It includes an unprecedented collection of upscaled (porosity) models used for shallow water equations and transport- reaction processes. Porosity models are obtained by averaging the two-dimensional shallow water equations over large areas containing both a water and a solid phase. The size of a computational cell can be increased by a factor 10 to 50 compared to a 2D shallow water model, with CPU times reduced by 2 to 3 orders of magnitude. Applications include urban flood simulations as well as flows over complex topography. Besides the standard shallow water equations (the default model), several porosity models are included in the platform: (i) Single Porosity, (ii) Dual Integral Porosity, and (iii) Depth-dependent Porosity model. Various flow processes (friction, head losses, wind, momentum diffusion, precipitation/infiltration) can be included in a modular way by activating specific execution flags. Several examples are included to illustrate the potential of SW2D.
• Functional Description:
  Urban floods are usually simulated using two-dimensional shallow water models. A correct representation of the urban geometry and hydraulics would require that the average computational cell size be between 0.1 m and 1 m. The meshing and computation costs make the simulation of entire districts/conurbations impracticable in the current state of computer technology. An alternative approach consists in upscaling the shallow water equations using averaging techniques. This leads to introducing storage and conveyance porosities, as well as additional source terms, in the mass and momentum balance equations. Various versions of porosity-based shallow water models have been proposed in the literature. The Shallow Water 2 Dimensions (SW2D) computational code embeds various finite volume discretizations of these models. It uses fully unstructured meshes with arbitrary numbers of edges. The key features of the models and numerical techniques embedded in SW2D are : - specific momentum/energy dissipation models that are active only under transient conditions. Such models, that are not present in classical shallow water models, stem from the upscaling of the shallow water equations and prove essential in modeling the features of fast urban flow transients accurately - modified HLLC solvers for an improved discretization of the momentum source terms stemming from porosity gradients - higher-order reconstruction techniques that allow for faster and more stable calculations in the presence of wetting/drying fronts.
• Release Contributions:
  - binary file for educational purposes (including documentation) first release - remove dependency with former package geo through mc.inria.fr ## version 0.8.1 - 04/02/2021 - now using dtk-forge (packages should be more homogeneous) (!220) - fixed frequency refresh for simulation (!246) - fixed using the control bar before finish breaking the results (!249) - fixed spurious call to close (!247) - added help menu (!238) - forbid loading settings during simulation (!244) ## version 0.8.0a - 28/01/2021 - logging now appears in the GUI sw2dModeler (!212) - you can extract values at chosen time using a dedicated text file (!217) - added various scripts and examples (!230 !229) - output file name changed (!224)
• URL:
  https://­sw2d.­inria.­fr/
• Publications:
  hal-01884110, hal-01878242, hal-01582224, hal-01541070, hal-01465071, hal-01118743, hal-02269526, hal-02269564, hal-03224056, hal-03224050, hal-02903282
• Contact:
  Antoine Rousseau
• Participants:
  Vincent Guinot, Antoine Rousseau, Carole Delenne, Pascal Finaud Guyot, Joao Guilherme Caldas Steinstraesser, Marc Hetier
• Partners:
  Université de Montpellier, CNRS, IRD

7.1.2 tsunamilab

• Name:
  TsunamiLab
• Keywords:
  Tsunamis, GPGPU, Dissemination, Web
• Functional Description:

  TsunamiLab is an interactive tsunami simulation and visualization platform that teaches and raises awareness about tsunamis through interactive experiences. It allows science communicators, teachers, students and science enthusiasts to create virtual tsunamis or recreate historical tsunamis, and study their features in various digital and augmented reality formats.

  TsunamiLab-Pool: Using cameras and projectors, the "pool" format allows children and adults to interact with their own hands, gathered around the circular screen. This allows the instructor to teach and engage several children simultaneously, in a way that is entertaining for all.

  Web Platform: The platform's website allows anyone to simulate historical tsunamis, observe how they propagated in the ocean, and test what would have happened if they had been of greater or lesser magnitude.

  Hologram: Through a prism, a holographic image makes it possible to observe the impact in different parts of the world at the same time.

  Large Touch Screen: Support for large touch screens allows teachers to observe and explain phenomena in an engaging way in front of a group of students.

• URL:
  http://­www.­tsunamilab.­cl
• Publications:
  hal-02112763, hal-03514473
• Contact:
  Jose Daniel Galaz Mora
• Participants:
  Jose Daniel Galaz Mora, Antoine Rousseau
• Partners:
  Cigiden, Inria Chile

8.1.1 Street-building exchange

8.1.2 Porosity models for upscaled urban flood modeling

8.1.3 Large scale floods

8.1.4 Coupling

8.1.5 Numerical methods for hyperbolic systems of equations

8.2.1 Statistical approaches for extreme values

8.2.2 Heterogeneous data

8.3.1 Downscaling

8.3.2 AI for flood forecasting

9.1.1 Associate Teams in the framework of an Inria International Lab or in the framework of an Inria International Program

Participants: Pascal Finaud-Guyot, Antoine Rousseau, Katia Ait Ameur, Marc Hetier.

9.1.2 Participation in other International Programs

Participants: Pascal Finaud-Guyot, Vincent Guinot, Carole Delenne.

• Pascal Finaud-Guyot and Vincent Guinot are members of the French-Tunisian International Laboratory Naïla, 2016-2023. The laboratory research focuses on the management of the water resources in agricultural Tunisian catchement. In this context, LEMON members develop DDP model for fine scale runoff modeling to better understand the agricultural practices-soil erosion interactions.
• Carole Delenne is a member of the project "Abidjan: eaux et ville en mutation"6 funded by the UNESCO Center on water ICIREWARD, lead by Jean-Louis Perrin (HSM) in collaboration with Université Nangui Abrogoua. Abidjan, the economic capital of Côte d'Ivoire, is set to see its population double by 2050. Faced with the far-reaching changes observed over the last 10 years, this project aims to gain a better understanding of their impact on the urban water cycle, with major issues relating to flooding, domestic effluent management, resource pollution and the city's drinking water supply.

9.2.1 Horizon Europe

Participants: Carole Delenne, Omar Et-Targuy.

Carole Delenne is a member of the STARWARS European project steering committee: STormwAteR and WastewAteR networkS heterogeneous data AI-driven management (MSCA Staff Exchange program, Grant Number 101086252).

Public and private stakeholders of the wastewater and stormwater sectors are increasingly faced with large quantities and multiple sources of information/data of different nature: databases of factual data, geographical data, various types of images, digital and analogue maps, intervention reports, incomplete and imprecise data (on locations and the geometric features of networks), evolving and conflicting data (from different eras and sources), etc. The main objective of this multidisciplinary project is to provide novel proposals for the management of heterogeneous data with an application to stormwater and wastewater networks. The STARWARS project aims to bring together researchers from the AI and Water Sciences communities in order to enhance the emergence of new practical solutions for representing, managing, modeling, merging, completing, reasoning, explaining and query answering over data of different forms pertaining to stormwater and wastewater networks. The project is implemented through five work packages (WP):

• Data Collection and Data Completion
• Unreliable and Heterogeneous Data/Information Modeling
• Practical Merging, Inconsistency and Clustering
• Tractable Query-answering, Explainability, Algorithms
• Validations Project management, Communication, Dissemination and Training

The scheduled secondment plan is designed with the aim of maximizing knowledge transfer and training between the two fields of Water Sciences and AI and thus facilitating the achievement of the project objectives.

10.1.1 Scientific events: organisation

10.1.2 Scientific events: selection

10.1.3 Journal

10.1.4 Invited talks

• Nicolas Meyer gave a talk at the one-day workshop Événements extrêmes et risquesentitled "Tail inference for high-dimensional data"
• Antoine Rousseau gave a keynote 16 at the Rencontre annuelle 2023, GDR "Défis théoriques pour les sciences du climat", June 2023, Paris, France
• Antoine Rousseau gave a lecture 15 at the conference Numhyp23 - Numerical Methods for Hyperbolic Problems, June 2023, Bordeaux, France
• Gwladys Toulemonde gave a virtual lecture at UCL seminar in statistics, June 2023, London, UK.
• Carole Delenne gave a lecture at the Autumn Institute in Artificial Intelligence (IA2), co-organized in November 2023, Sete, France
• Gwladys Toulemonde gave an invited talk at the conference Data Science pour les risques côtiers, November 2023, Roscoff, France
• Antoine Rousseau gave a keynote 17 at the Journées Scientifiques Inria Chile, December 2023, Santiago, Chile
• Antoine Rousseau gave a lecture 14 at the hydraulic department of Pontificia Universidad Católica, December 2023, Santiago, Chile
• Gwladys Toulemonde gave an invited talk 4 at the IMS conference ICSDS 2023, December 2023, Lisbon, Portugal.

10.1.5 Leadership within the scientific community

• Gwladys Toulemonde is vice-president of the French Statistical Society (Société Française de Statistique, SFdS).

10.1.6 Scientific expertise

• Antoine Rousseau is member of the scientific board of Fondation Blaise Pascal.

10.1.7 Research administration

• Carole Delenne is elected member of the Ecole Doctorale GAIA board.
• Vincent Guinot is head of the "Eau dans la Ville" cross-disciplinary research group at HSM (20 staff members) and of the Urban Observatory of HSM.
• Vincent Guinot is a member of the board for scientific strategy at HSM.
• Antoine Rousseau is head of the LEMON team at Inria CRI-SAM (6 staff members).
• Antoine Rousseau is a member of the Inria CRI-SAM steering board (Comité des Projets).
• Antoine Rousseau is a member of the Inria CRI-SAM scientific board (Bureau du Comité des Projets).
• Gwladys Toulemonde is elected member of a local committee (commission de section) relative to the CNU section 26 until september 2023.
• Gwladys Toulemonde is elected member of the French Statistical Society board (Société Française de Statistique, SFdS).
• Gwladys Toulemonde is elected member of Environment group of the French Statistical Society board (Société Française de Statistique, SFdS).
• Gwladys Toulemonde is elected member of the liaison commitee of the MAS Group (Modélisation Aléatoire et Statistique), SMAI (Société de Mathématiques Appliquées et Industrielles).

10.2.1 Academic involvement / responsibilities

5 UM-affiliated members of LEMON are Academics, for a total teaching load of approximately 1000 hrs/year. Moreover, these members undertook significant administrative duties (approx. 1000 hrs) in 2023:

• Carole Delenne is Program coordinator of the last year of "Eau et Génie Civil - EGC" (Water and Civil Engineering) and the penultimate year of "Sciences et technologies de l'eau" (water science and technology) of the engineering program at Polytech Montpellier.
• Pascal Finaud-Guyot is Program coordinator (Year 2) and Sustainable Development coordinator for the EGC engineering program at Polytech Montpellier.
• Nicolas Meyer is Head of Master 1 Statistics and Data Science
• Vincent Guinot is Head of the EGC Academic department at Polytech Montpellier.
• Gwladys Toulemonde is Admissions office coordinator at Polytech Montpellier (500+ students/ year).

10.2.2 Supervision

10.2.3 Juries

• Antoine Rousseau was reviewer for Rishabh Bbhatt’s PhD (Univ. Grenoble Alpes, 2023)
• Antoine Rousseau was member of the Inria Junior Researcher (CRCN/ISFP) comittee in Grenoble
• Gwladys Toulemonde has participated in the PhD jury of Hela Hammami from University of Montpellier, defended in December, 2023.

10.3.1 Internal or external Inria responsibilities

• Antoine Rousseau is co-editor of the national blog binaire, published by Le Monde.
• Gwladys Toulemonde is involved in the board of Animath since october, 2019, representing the SFdS.
• Gwladys Toulemonde is a member of the organizing committee of the Salon de la culture et des jeux mathématiques since 2020.
• In Montpellier, Gwladys Toulemonde and a humanities colleague set up the first local branch of the Collège des sociétés savantes. The creation was announced in June 2023 and the first action was a round table on "Science and Society" in 3 parts: Science and the media, Science and the socio-economic world, and Science and the general public, held during the Printemps des comédiens festival.

10.3.2 Education

• Carole Delenne participated several times in the reception of secondary school students in the framework of Digi’Filles (ISDM, Univ Montpellier): children’s version of the “fresque du climat”, water cycle.
• Gwladys Toulemonde co-created the national programme Math C pour L, a mathematics research programme for female students in their first three years of university. The first edition was in CIRM, February 2023.
• Gwladys Toulemonde is involved in the board of the CFEM (commission française pour l'enseignement des mathématiques) since October, 2019, representing the SFdS.
• Nicolas Meyer and Gwladys Toulemonde organized sessions of the “Fresque du climat” for the Master 1 students in Statistics and Data Science and for Polytech students, respectively.
• Carole Delenne is part of OpenING and WidenING projects of the "Fondation Polytech", which aims to provide a series of educational 'seeds': these are a mixture of lectures and exercises on a particular concept, which students can complete independently (with guidance if required) in one or two hours. They are created using the H5P and Genially tools, e.g.
• Carole Delenne and Gwladys Toulemonde are part of Math'Start Project, that aims to provide a Moodle-based library of mathematical exercises to remedy, restore and consolidate numeracy skills at L1 level in mathematics. These deliverables will complement the resources already available in the form of educational 'seeds' of the OpenING project.

10.3.3 Interventions

• José Galaz gave a lecture "Tsunamilab, une plateforme numérique interactive pour créer des tsunamis" at the "Feria de la Ciencia" (Chile, 2023).

International journals

• 1 articleS.Samer Majdalani and V.Vincent Guinot. Solute transport in heterogeneous model porous media under different flow rates: Experimental and modelling study.Journal of Hydrology616January 2023, 128790HALDOI
• 2 articleS.Samuel Valiquette, G.Gwladys Toulemonde, J.Jean Peyhardi, É.Éric Marchand and F.Frédéric Mortier. Asymptotic tail properties of Poisson mixture distributions.Stat1212023, e622HALDOIback to text

Invited conferences

• 3 inproceedingsN.Nanée Chahinian, B.Batoul Haydar, S.Serge Conrad, S.Stéphane Debard and C.Carole Delenne. Everything You Always Wanted to Know About Urban Water Networks But Were Afraid to Ask -Extended Abstract.CEUR Workshop proceedingsENIGMA 2023 - 1st Workshop on AI-driven heterogeneous data management: Completing, merging, handling inconsistencies and query-answering, co-located with 20th International Conference on Principles of Knowledge Representation and Reasoning (KR 2023)3495Rhodes, GreeceOctober 2023, 1-2HALback to text
• 4 inproceedingsG.Gwladys Toulemonde, A.Alexis Boulin, E.Elena Di Bernadino and T.Thomas Laloë. High dimensional clustering of coupound precipitation and wind extremes over Europe.Programm bookICSDS 2023 - IMS International Conference on Statistics and Data Science2023 IMS International Conference on Statistics and Data Science (ICSDS)Lisbon, PortugalDecember 2023HALback to textback to text

International peer-reviewed conferences

• 5 inproceedingsV.Vita Ayoub, R.Renaud Hostache, M.Marco Chini, R.Ramona Pelich, C.Carole Delenne and P.Patrick Matgen. Assimilation of probabilistic flood maps into large scale hydraulic models to retrieve missing river geometry data using a tempered particle filter.IEEE XploreIGARSS 2023 - 2023 IEEE International Geoscience and Remote Sensing SymposiumPasadena, United StatesJuly 2023HALback to text
• 6 inproceedingsA.Alexis Boulin, E. D.Elena Di Bernardino, T.Thomas Laloë and G.Gwladys Toulemonde. High-dimensional clustering of sub-asymptotic maxima of a weakly dependent process.Proceedings of ICSDS 20232023 IMS International Conference on Statistics and Data Science (ICSDS)Lisbon, PortugalDecember 2023HALback to text
• 7 inproceedingsO.Omar Et-Targuy, A.Ahlame Begdouri, S.Salem Benferhat, C.Carole Delenne, T.-N.Thanh-Nghi Do and T.-T.Truong-Thanh Ma. A Graph-Based Approach for Representing Wastewater Networks from GIS Data: Ensuring Connectivity and Consistency.Communications in Computer and Information Science (to appear)ISDS 2023 - 1rst International Conference on Intelligent Systems and Data Science1949Can Tho (Vietnam), VietnamSpringer Nature SingaporeOctober 2023, 243-257HALDOI
• 8 inproceedingsO.Omar Ettarguy, A.Ahlame Begdouri, S.Salem Benferhat and C.Carole Delenne. Syntactic computation of Fagin-Halpern conditioning in possibility theory.EPiC Series in ComputingLPAR 2023 - 24th International Conference on Logic for Programming, Artificial Intelligence and Reasoning94Proceedings of 24th International Conference on Logic for Programming, Artificial Intelligence and ReasoningManizales, ColombiaJune 2023, 164-146HALDOIback to textback to text
• 9 inproceedingsC.Christophe Peugeot, E.Erwan Le Roux, V.Valentin Wendling, G.Gérémy Panthou, P.-A.Paul-Alain Raynal, A.Abdramane Ba, I.Ibrahim Bouzou Moussa, J.-M.Jean-Martial Cohard, J.Jérôme Demarty, F.Fabrice Gangneron, M.Manuela Grippa, B.Basile Hector, T.Thierry Lebel, P.Pierre Hiernaux, L.Laurent Kergoat, E.Emmanuel Lawin, J. D.José Daniel Galaz Mora, É.Éric Mougin, C.Caroline Pierre, J.-L.Jean-Louis Rajot and T.Tiphyc Project. A drought-triggered hydrological tipping point in the central Sahel: an attribution study using system dynamics modelling.2nd conference internationale TERENO-OZCARBonn, Germany2023HAL
• 10 inproceedingsC.Chloé Serre-Combe, N.Nicolas Meyer, T.Thomas Opitz and G.Gwladys Toulemonde. Modélisation statistique de précipitations urbaines à fine échelle spatio-temporelle.JDS 2023 - 54e Journées de Statistique de la SFdsBruxelles, BelgiumJuly 2023HAL
• 11 inproceedingsC.Chloé Serre-Combe, N.Nicolas Meyer, T.Thomas Opitz and G.Gwladys Toulemonde. Towards statistical modelling of urban rainfall on a fine spatio-temporal scale.RESSTE 2023 - Journée "Événements extrèmes et risques"Marseille, FranceJune 2023HAL

Conferences without proceedings

• 12 inproceedingsA.Alexis Boulin, E. D.Elena Di Bernardino, T.Thomas Laloë and G.Gwladys Toulemonde. Identifying regions of concomitant compound precipitation and wind speed extremes over Europe.54es Journées de Statistique de la SFdSBruxelles, BelgiumJuly 2023HALback to text
• 13 inproceedingsO.Omar Et-Targuy, A.Ahlame Begdouri, S.Salem Benferhat and C.Carole Delenne. Revising Weighted Knowledge Bases Using FH-Conditioning.ENIGMA 2023 - 1st Workshop on AI-driven heterogeneous data management: Completing, merging, handling inconsistencies and query-answeringisRhodes, GreeceSeptember 2023HALback to text
• 14 inproceedingsA.Antoine Rousseau. Frugal multi-scale flood modeling: new models and numerical tools.Seminario del Departamento Ingeniería Hidráulica y AmbientalSantiago, ChileDecember 2023HALback to text
• 15 inproceedingsA.Antoine Rousseau and V.Vincent Guinot. Large CFL explicit scheme for nonlinear shallow water equations.numhyp23 - Numerical Methods for Hyperbolic ProblemsBordeaux, FranceJune 2023HALback to text
• 16 inproceedingsA.Antoine Rousseau and V.Vincent Guinot. Upscaled models and large CFL time schemes for hydraulic modeling.Rencontre annuelle 2023 GDR "Défis théoriques pour les sciences du climat"Paris, FranceJune 2023HALback to text
• 17 inproceedingsA.Antoine Rousseau. Multi-scale flood modeling with shallow water models.Journée Scientifiques Inria Chile 2023Santiago, ChileDecember 2023HALback to text
• 18 inproceedingsC.Chloé Serre-Combe, N.Nicolas Meyer, T.Thomas Opitz and G.Gwladys Toulemonde. Modélisation statistique de précipitations urbaines à fine échelle spatio-temporelle.Workshop ANR MUFFINSAix-en -Provence, FranceSeptember 2023HAL
• 19 inproceedingsN.Nadia Skifa, F.Fadil Boodoo, C.Carole Delenne, R.Renaud Hostache and M.Morgan Abily. Impact of training dataset size and its hydrometeorological typology on LSTM performance for rainfall-runoff modeling: a case study of the Severn river.SimHydro conferencesChatou, FranceNovember 2023HALback to text
• 20 inproceedingsS.Samuel Valiquette, G.Gwladys Toulemonde, J.Jean Peyhardi, É.Éric Marchand and F.Frédéric Mortier. Asymptotic tail properties of Poisson mixture distributions.2023 Joint Statistical MeetingsToronto ( CA ), CanadaAugust 2023HALback to text

Edition (books, proceedings, special issue of a journal)

• 21 proceedingsA.Alexis BoulinE. D.Elena Di BernardinoT.Thomas LaloëG.Gwladys ToulemondeHigh-dimensional clustering of sub-asymptotic maxima of a weakly dependent process.54es Journées de Statistique de la SFdSJuly 2023HALback to text

Doctoral dissertations and habilitation theses

• 22 thesisC.Cécile Choley. Study and modeling of the physical processes controlling water exchanges between streets and buildings during an urban flood.Université de StrasbourgDecember 2023HALback to textback to text

Reports & preprints

• 23 miscJ.-N.Jean-Noel Bacro, C.Carlo Gaetan, T.Thomas Opitz and G.Gwladys Toulemonde. Multivariate peaks-over-threshold with latent variable representations of generalized Pareto vectors.January 2023HALback to text
• 24 miscA.Alexis Boulin, E. D.Elena Di Bernardino, T.Thomas Laloë and G.Gwladys Toulemonde. High-dimensional variable clustering based on sub-asymptotic maxima of a weakly dependent random process.2023HALback to textback to text
• 25 miscA.Alexis Boulin, E. D.Elena Di Bernardino, T.Thomas Laloë and G.Gwladys Toulemonde. Identifying regions of concomitant compound precipitation and wind speed extremes over Europe.November 2023HALback to text
• 26 miscP.Pascal Finaud-Guyot, M.Marc Hétier and A.Antoine Rousseau. Numerical modeling of large debris transport during floods.March 2023HALback to textback to text
• 27 miscV.Vincent Guinot and A.Antoine Rousseau. Large CFL explicit scheme for one-dimensional shallow water equations.2023HALback to text
• 28 miscS.Sebastián Nash, C.Cristian Escauriaza, P.Pascal Finaud-Guyot, W.Wolfram Jahn and A.Antoine Rousseau. Single Porosity Model: Exploring the Spatial Resolution Limits in Complex Urban Patterns.October 2023HALback to textback to text

Other scientific publications

• 29 inproceedingsF.Fadil Boodoo, C.Carole Delenne, R.Renaud Hostache and J.Julien Freychet. Comparison of a conceptual rainfall-runoff model with an artificial neural network model for streamflow prediction.2023 EGU General Assembly - European Geosciences Union General AssemblyVienna, AustriaMay 2023HALback to text
• 30 inproceedingsF.Fadil Boodoo, C.Carole Delenne, R.Renaud Hostache and N.Nadia Skifa. Comparison of an artificial neural network with a conceptual rainfall-runoff model for streamflow prediction.Prévision des crues et des inondations – Avancées, valorisation et perspectivesToulouse, FranceNovember 2023HALback to text
• 31 inproceedingsA.Alexis Boulin, E. D.Elena Di Bernardino, T.Thomas Laloë and G.Gwladys Toulemonde. High-dimensional clustering of sub-asymptotic maxima of a weakly dependent process.13th International Conference on Extreme Value AnalysisMilan (Italie), ItalyJune 2023HALback to text
• 32 inproceedingsJ.José Galaz, M.Maria Kazolea and A.Antoine Rousseau. Modeling wave breaking by coupling dispersive and hyperbolic water wave models.MOMI 2023 - Le Monde des Mathématiques Industrielles 2023: Smart EnvironmentSophia Antipolis, France2023HALback to text
• 33 inproceedingsC.Chloé Serre-Combe, N.Nicolas Meyer, T.Thomas Opitz and G.Gwladys Toulemonde. Modeling moderate and extreme urban rainfall at high spatio-temporal resolution.EVA 2023 - 13th International Conference on Extreme Value AnalysisMilano, ItalyJune 2023HAL