Rabago Julius Fergy

ラバゴジュリアスファージー | Rabago Julius Fergy

Affiliation and department：
Job title： Postdoctoral Researcher
Homepage URL (1)： https://jftrabago.github.io/

Research field (2)： Applied mathematics and statistics , Computational science

Research keywords (4)： Free boundary problems , Free surface problems , Geometric inverse problems , Shape optimization methods

Research theme for competitive and other funds (1)：

2023 - 2027 Development of effective and accurate non-conventional solution methods for shape inverse problems: theory and numerics

Papers (50)：

J.F.T. Rabago, A. Hadri, L. Afraites, A.S. Hendy, M.A. Zaky. A robust alternating direction method of multipliers numerical scheme for solving geometric inverse problems in a shape optimization setting. Computers & Mathematics with Applications. 2024. 175. 19-32
Yosuke Sunayama, Julius Fergy Tiongson Rabago, Masato Kimura. Comoving mesh method for multi-dimensional moving boundary problems: Mean-curvature flow and Stefan problems. Mathematics and Computers in Simulation. 2024
Lekbir Afraites, Julius Fergy T. Rabago. Boundary shape reconstruction with Robin condition: existence result, stability analysis, and inversion via multiple measurements. Computational and Applied Mathematics. 2024. 43. 5
Julius Fergy Tiongson Rabago, Hirofumi Notsu. Numerical Solution to a Free Boundary Problem for the Stokes Equation Using the Coupled Complex Boundary Method in Shape Optimization Setting. Applied Mathematics & Optimization. 2024. 89. 1
Elmehdi Cherrat, Lekbir Afraites, Julius Fergy T. Rabago. Shape reconstruction for advection-diffusion problems by shape optimization techniques: The case of constant velocity. Discrete and Continuous Dynamical Systems - S. 2023

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Lectures and oral presentations (6)：

Non-conventional shape optimization methods for solving shape inverse problems
(Applied Inverse Problems 2023 (AIP2023) 2023)
Numerical solution to a free boundary problem for the Stokes equation using the coupled complex boundary method in shape optimization setting
(10th International Congress on Industrial and Applied Mathematics (ICIAM2023) 2023)
An ADMM numerical approach in shape optimization setting for geometric inverse problems
(CoMFoS22: Mathematical Aspects of Continuum Mechanics 2022 2022)
Comoving Mesh Method: a Finite Element Scheme for Solving Classes of Free and Moving Boundary
(2022 Mathematical Society of the Philippines Annual Convention)
On a numerical shape optimization approach to the exterior Bernoulli problem via the coupled complex boundary method
(Workshop on Scientific Computing 2022)

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Education (4)：

2017 - 2020 Nagoya University Graduate School of Informatics Ph. D. (Informatics)
2015 - 2017 University of the Philippines Baguio Department of Mathematics and Computer Science M. Sc. (Mathematics)
2011 - 2015 College of Science, University of the Philippines Diliman Institute of Mathematics P. M. A. M. (Actuarial Science)
2007 - 2010 College of Science, University of the Philippines Baguio Department of Mathematics and Computer Science B. Sc. (Mathematics)

Work history (4)：

2024/11 - 現在 Kanazawa University Faculty of Mathematics and Physics, Institute of Science and Engineering JSPS Postdoctoral Fellow
2020/10 - 2024/10 Kanazawa University Faculty of Mathematics and Physics, Institute of Science and Engineering Postdoctoral Researcher
2016/10 - 2017/09 Nagoya University Graduate School of Informatics Research Student
2014/08 - 2016/07 University of the Philippines Baguio Department of Mathematics and Computer Science Research Assistant

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