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Main Authors: Farooq, Zainab, Pashov, Amar, Reumers, Pieter, François, Stijn, Degrande, Geert
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2603.19080
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author Farooq, Zainab
Pashov, Amar
Reumers, Pieter
François, Stijn
Degrande, Geert
author_facet Farooq, Zainab
Pashov, Amar
Reumers, Pieter
François, Stijn
Degrande, Geert
contents The evaluation of elastodynamic Green's functions across numerous source-receiver locations, frequencies, and material properties, particularly in the context of parametric studies or boundary element computations, is computationally demanding and memory intensive. This paper presents a reduced order modeling strategy based on the Greedy Tucker Approximation (GTA), which incrementally constructs a low-rank representation of the Green's tensor through rank-one enrichments obtained via a Proper Generalized Decomposition (PGD)-type alternating least squares procedure. A Petrov-Galerkin formulation is employed to improve convergence and approximation accuracy. The resulting multi-dimensional tensor, expressed in terms of one-dimensional basis functions and a compact core, achieves substantial reductions in memory requirements. The methodology is demonstrated for two cases: a soil layer on rigid bedrock and a layered halfspace. Different separable dimensions are considered to capture various combinations of source and receiver configurations, frequencies, and material parameters. Results are validated against those obtained with the direct stiffness method and computation times and memory requirements are compared.
format Preprint
id arxiv_https___arxiv_org_abs_2603_19080
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Reduced order computation of 2D elastodynamic Green's functions in layered soil using a low-rank tensor approximation
Farooq, Zainab
Pashov, Amar
Reumers, Pieter
François, Stijn
Degrande, Geert
Numerical Analysis
The evaluation of elastodynamic Green's functions across numerous source-receiver locations, frequencies, and material properties, particularly in the context of parametric studies or boundary element computations, is computationally demanding and memory intensive. This paper presents a reduced order modeling strategy based on the Greedy Tucker Approximation (GTA), which incrementally constructs a low-rank representation of the Green's tensor through rank-one enrichments obtained via a Proper Generalized Decomposition (PGD)-type alternating least squares procedure. A Petrov-Galerkin formulation is employed to improve convergence and approximation accuracy. The resulting multi-dimensional tensor, expressed in terms of one-dimensional basis functions and a compact core, achieves substantial reductions in memory requirements. The methodology is demonstrated for two cases: a soil layer on rigid bedrock and a layered halfspace. Different separable dimensions are considered to capture various combinations of source and receiver configurations, frequencies, and material parameters. Results are validated against those obtained with the direct stiffness method and computation times and memory requirements are compared.
title Reduced order computation of 2D elastodynamic Green's functions in layered soil using a low-rank tensor approximation
topic Numerical Analysis
url https://arxiv.org/abs/2603.19080