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X-ORIGINAL-URL:https://cmc.deusto.eus/
X-WR-CALNAME:cmc.deusto.eus
X-WR-CALDESC:DeustoCCM - Chair of Computational Mathematics at University of Deusto
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UID:MEC-3b99814179da563893e7a98826c8e17b@cmc.deusto.eus
DTSTART:20250516T133000Z
DTEND:20250516T143000Z
DTSTAMP:20250510T004700Z
CREATED:20250510
LAST-MODIFIED:20250702
PRIORITY:5
TRANSP:OPAQUE
SUMMARY:DeustoCCM Seminar by R. Morales and K. Lyu
DESCRIPTION:Date: Fri. May 16, 2025 (15:30H)\nEvent: DeustoCCM Seminar\n15:30H. Session 01\nTitle: Controllability on some PDEs with dynamic boundary conditions\nSpeaker: Prof. Roberto Morales\nAffiliation: DeustoCCM, University of Deusto\nAbstract. In this talk, I will present recent controllability results for partial differential equations (PDEs) with generalized dynamic boundary conditions. These findings primarily concern parabolic and dispersive equations. The proofs are based on well-known techniques based on the duality between Controllability and Observability of the associated adjoint system. I will also highlight several open problems that arise in this framework. Finally, I will outline some of the research directions I plan to pursue at DeustoTech, focusing on the intersection of Control Theory and Machine Learning.\n16:00H. Session 02\nTitle: Neural Operator Approximations for Boundary Stabilization of Cascaded Parabolic PDEs\nSpeaker: Kaijing Lyu\nAffiliation: Visiting PhD student at DeustoCCM\nAbstract. The backstepping method has been widely applied to boundary control problems of PDE systems, but solving the backstepping kernel function can be time-consuming. To address this challenge, a neural operator (NO) learning scheme is leveraged to accelerate the control design for cascaded parabolic PDEs. DeepONet, a class of deep neural networks designed for approximating nonlinear operators, has demonstrated its potential in approximating PDE backstepping designs in recent studies. Specifically, we focus on approximating the gain kernel PDEs for two cascaded parabolic PDEs. We employ neural operators to approximate only two kernel functions, while the remaining two are computed analytically, thereby simplifying the training process. We establish the continuity and boundedness of the kernels and demonstrate the existence of arbitrarily close DeepONet approximations to the kernel PDEs. Furthermore, we show that the DeepONet-approximated gain kernels ensure stability when replacing the exact backstepping gain kernels. Notably, the DeepONet operator achieves computational speeds that are two orders of magnitude faster than PDE solvers for such gain functions, and its theoretically proven stabilizing capability is validated through simulations.\n \nWHERE\nUniversity of Deusto, DeustoTech.\nRoom: Logistar\nUnibertsitate Etorb., 24, 48007 Bilbao, Bizkaia\n
URL:https://cmc.deusto.eus/events-calendar/deustoccmseminar-16-may-2025/
ORGANIZER;CN=DeustoCCM - Chair of Computational Mathematics:MAILTO:
CATEGORIES:Events Calendar,Events Calendar Past
LOCATION:Unibertsitate Etorb., 24, 48007 Bilbao, Bizkaia
ATTACH;FMTTYPE=image/png:https://cmc.deusto.eus/wp-content/uploads/deustoCCM_seminar_rMorales_kLyu_16may2025.png
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