About Ibrahim Hoteit Ibrahim Hoteit Professor, Earth Science and Engineering climate and environmental modeling data assimilation The Red Sea and Arabian Gulf global climate dynamics sustainable environmental management Professor Ibrahim Hoteit is a faculty member at KAUST, specializing in the simulation, analysis, and prediction of weather and climate patterns across the Arabian Peninsula. His pioneering research leverages data-driven modeling systems to advance the understanding of climatic dynamics in the Red Sea and Arabian Gulf regions. Professor Hoteit's work not only contributes to regional climate science but also supports sustainable environmental management and policy development in these critical areas. Events Presented Events Jan 29 - Feb 4, 2023 Forward and Backward Tracking of Oil Spills Under Ensemble DA Uncertainties with Real World Applications in the Red Sea Ibrahim Hoteit, Professor, Earth Science and Engineering Jan 31, 15:30 - 17:00 B1 L4 R4102 Oil Spills The talk will present our efforts to develop the next-generation operational system for the Red Sea, as part of Aramco’s resolution toward the fourth industrial revolution. This integrated system has been built around state-of-the-art ocean-atmosphere-wave general circulation models that have been specifically developed for the Red Sea region and nested within the global weather systems. Nov 22 - Nov 28, 2020 From a Virtual Red Sea to the Urban Scales of NEOM: A Decade of Progress Driven by Computational Sciences Ibrahim Hoteit, Professor, Earth Science and Engineering Nov 23, 12:00 - 13:00 KAUST The talk will present our decade-long efforts to build an integrated data-driven modeling system to study and predict the circulation and climate of the Arabian Peninsula at all scales. Starting from a general description of the Virtual Red Sea Initiative at its achievements so far, I will then outline our ongoing research under the KAUST Centre of Excellence for NEOM to develop new tools to seamlessly project and study the environment at the urban scales of NEOM. I will in particular discuss the involved scientific opportunities and challenges in terms of computational Sciences, including our extreme computational requirements, and the handling, analysis and visualization of very large datasets. Oct 6 - Oct 12, 2019 Modeling, studying, and forecasting the circulation and Climate of the Red Sea Ibrahim Hoteit, Professor, Earth Science and Engineering Oct 10, 12:00 - 13:00 B9 L2 H1 R2322 Abstract The talk will present the integrated data-driven modeling system that we are developed to study and predict the circulation and the climate of the Red Sea. I will first describe the modeling system and summarize our key findings on the Red Sea general circulation, including its dominant eddy activity, the striking seasonally overturning circulation, and the occasional northern deep water formation events, and discuss their impact on the Red Sea ecosystem. I will then focus on our efforts to develop a regional ensemble data assimilation and forecasting system, presenting recent
Forward and Backward Tracking of Oil Spills Under Ensemble DA Uncertainties with Real World Applications in the Red Sea Ibrahim Hoteit, Professor, Earth Science and Engineering Jan 31, 15:30 - 17:00 B1 L4 R4102 Oil Spills The talk will present our efforts to develop the next-generation operational system for the Red Sea, as part of Aramco’s resolution toward the fourth industrial revolution. This integrated system has been built around state-of-the-art ocean-atmosphere-wave general circulation models that have been specifically developed for the Red Sea region and nested within the global weather systems.
From a Virtual Red Sea to the Urban Scales of NEOM: A Decade of Progress Driven by Computational Sciences Ibrahim Hoteit, Professor, Earth Science and Engineering Nov 23, 12:00 - 13:00 KAUST The talk will present our decade-long efforts to build an integrated data-driven modeling system to study and predict the circulation and climate of the Arabian Peninsula at all scales. Starting from a general description of the Virtual Red Sea Initiative at its achievements so far, I will then outline our ongoing research under the KAUST Centre of Excellence for NEOM to develop new tools to seamlessly project and study the environment at the urban scales of NEOM. I will in particular discuss the involved scientific opportunities and challenges in terms of computational Sciences, including our extreme computational requirements, and the handling, analysis and visualization of very large datasets.
Modeling, studying, and forecasting the circulation and Climate of the Red Sea Ibrahim Hoteit, Professor, Earth Science and Engineering Oct 10, 12:00 - 13:00 B9 L2 H1 R2322 Abstract The talk will present the integrated data-driven modeling system that we are developed to study and predict the circulation and the climate of the Red Sea. I will first describe the modeling system and summarize our key findings on the Red Sea general circulation, including its dominant eddy activity, the striking seasonally overturning circulation, and the occasional northern deep water formation events, and discuss their impact on the Red Sea ecosystem. I will then focus on our efforts to develop a regional ensemble data assimilation and forecasting system, presenting recent
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