Litcius/Paper detail

Accelerating structural dynamics simulations with localised phenomena through matrix compression and projection‐based model order reduction

Konstantinos Agathos, Konstantinos Vlachas, Anthony Garland, Eleni Chatzi

2024International Journal for Numerical Methods in Engineering11 citationsDOIOpen Access PDF

Abstract

Abstract In this work, a novel approach is introduced for accelerating the solution of structural dynamics problems in the presence of localised phenomena, such as cracks. For this category of problems, conventional projection‐based Model Order Reduction (MOR) methods are either limited with respect to the range of system configurations that can be represented or require frequent solutions of the Full Order Model (FOM) to update the low‐dimensional spaces, in which solutions are represented. In the proposed approach, low‐dimensional spaces, constructed for the healthy structure, are enriched with appropriately selected columns of the flexibility matrix of the system. It can be shown that these spaces contain the solution to the original problem for the static case, while their dimension is much smaller. In order to allow their online construction for arbitrary localised features, the full flexibility matrix of the system should be available. To this end, a hierarchical representation is used for the matrices involved, allowing to compute the flexibility matrix efficiently and with reduced memory requirements. The resulting method offers significant speedups, without sacrificing the flexibility and accuracy of the full order model. The performance and limitations of the approach are studied through a series of examples in structural dynamics.

Topics & Concepts

Flexibility methodFlexibility (engineering)Representation (politics)Reduction (mathematics)Matrix (chemical analysis)Projection (relational algebra)Computer scienceDimension (graph theory)AlgorithmModel order reductionDimensionality reductionCompression (physics)Matrix representationMathematical optimizationMathematicsArtificial intelligenceFinite element methodGeometryStructural engineeringEngineeringPure mathematicsStatisticsPolitical scienceChemistryGroup (periodic table)PoliticsComposite materialOrganic chemistryLawMaterials scienceModel Reduction and Neural NetworksNumerical methods in engineeringElectromagnetic Simulation and Numerical Methods