Modified parameter-setting-free harmony search (PSFHS) algorithm for optimizing the design of reinforced concrete beams
Published in Structural and Multidisciplinary Optimization, 2019
Posts by Collection
publications
Pareto-like sequential sampling heuristic for global optimisation
Published in Soft Computing, 2021
| View on arXiv
Spherical cap harmonic analysis (SCHA) for characterising the morphology of rough surface patches
Published in Powder Technology, 2021
| View on arXiv
Geometrical Treatise on the Modelling of 3D Particulate Inclusion-Matrix Microstructures with an Application to Historical Stone Masonry Walls
Published in EPFL-Switzerland (PhD thesis), 2022
A virtual microstructure generator for 3D stone masonry walls
Published in European Journal of Mechanics - A/Solids, 2022
Disk harmonics for analysing curved and flat self-affine rough surfaces and the topological reconstruction of open surfaces
Published in Journal of Computational Physics, 2024
| View on arXiv
On the conjugate symmetry and sparsity of the harmonic decomposition of parametric surfaces with the randomised Kaczmarz method
Published in Signal Processing, 2024
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Spheroidal harmonics for generalizing the morphological decomposition of closed parametric surfaces
Published in Construction and Building Materials, 2024
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Hemispheroidal parameterization and harmonic decomposition of simply connected open surfaces
Published in Journal of Computational and Applied Mathematics, 2025
| View on arXivteaching
Nonlinear analysis of structures (CIVIL-449)
Graduate course, École Polytechnique Fédérale de Lausanne (EPFL), School of Architecture, Civil and Environmental Engineering (ENAC), 2019
From 2019-2022, I participated in preparing and lecturing this master course at EPFL. With Prof. Katrin Beyer (EPFL), I worked on preparing multiple advanced topics, such as, nonlinear materials, multi-point constraints (MPC), and geometric nonlinearity. For three consecutive years, I was involved in preparing lectures and codes, as well as designing exams and correcting them.
Plates and Shells (2.081)
Graduate course, Massachusetts Institute of Technology (MIT), Department of Mechanical Engineering (MechE), 2024
As a guest lecturer, my task was to introduce students to the Galerkin approaches and their various formulations for plates and shells. I also developed a basic Python code for the analysis of thick plates based on Mindlin theory with hybrid finite element formulation.