M
Michele Marino
Researcher at University of Rome Tor Vergata
Publications - 69
Citations - 874
Michele Marino is an academic researcher from University of Rome Tor Vergata. The author has contributed to research in topics: Finite element method & Multiscale modeling. The author has an hindex of 15, co-authored 65 publications receiving 623 citations. Previous affiliations of Michele Marino include Moorfields Eye Hospital & Instituto Politécnico Nacional.
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A unified multiscale mechanical model for soft collagenous tissues with regular fiber arrangement.
TL;DR: The mechanical response of soft collagenous tissues with regular fiber arrangement (RSCTs) is described by means of a nanoscale model and a two-step micro-macro homogenization technique, providing confirmation of clinical evidences and quantitative indications helpful for clinical practice.
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Stress and strain localization in stretched collagenous tissues via a multiscale modelling approach
Michele Marino,Giuseppe Vairo +1 more
TL;DR: Numerical results, obtained by using an incremental finite element formulation and addressing stretched tendinous tissues, prove consistency and accuracy of the model at both macroscale and microscale, confirming also the effectiveness of the multiscale modelling concept for successfully analysing physiopathological processes in biological tissues.
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Relationship between different fluorescein and indocyanine green angiography features in multiple evanescent white dot syndrome.
TL;DR: Angiographic features may vary in eyes with similar clinical signs of MEWDS and this variability could reflect the different anatomical structures involved during the natural evolution of the disease.
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Model-data-driven constitutive responses: Application to a multiscale computational framework
Jan N. Fuhg,Jan N. Fuhg,Christoph Böhm,Nikolaos Bouklas,Amélie Fau,Peter Wriggers,Michele Marino +6 more
TL;DR: A hybrid methodology is presented which combines classical constitutive laws (model-based), a data-driven correction component, and computational multiscale approaches, allowing for the synergistic integration between a physics-based response and a machine learning black-box.
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Age-dependent arterial mechanics via a multiscale elastic approach
TL;DR: A multiscale mechanical model for arterial walls is proposed to describe their age-dependent elastic behavior, highlighting that stiffness of collagen fibrils is related to both cross-link density and their mechanical properties.