Skip to content

Legato Team

Computational Mechanics

Menu

  • Home
  • Mission & Projects
    • Medical Simulation
    • Multi-scale methods for fracture
    • Error estimation
    • Model reduction methods for non-linear problems
    • Alleviate the Mesh Burden in Computational Mechanics
    • Multi-Physics / Multi-Field Problems
    • Meshless Methods
    • Moving Boundary Problems
  • News
  • People
    • Luxembourg team
    • Cardiff team
    • Associated members
    • Visiting professors
    • Collaborators
    • Post-docs
    • PhD students
    • Alumni
  • Publications
  • Resources
    • Software
    • Hardware
  • Media
  • Contacts

Alleviate the Mesh Burden in Computational Mechanics

Advances in Enriched Finite Element Methods
Advances in Enriched Finite Element Methods
CAD-CAE integration
CAD-CAE integration
Displacement based formulation over arbitrary polygon and polyhedra
Displacement based formulation over arbitrary polygon and polyhedra
Extended Finite Element Toolbox in Diffpack
Extended Finite Element Toolbox in Diffpack
Geometry independent field approximations in finite and boundary element methods
Geometry independent field approximations in finite and boundary element methods
Implementation of IGAFEM toolbox in Diffpack
Implementation of IGAFEM toolbox in Diffpack
Isogeometric analysis based methods for dynamic problems in 3-D structures
Isogeometric analysis based methods for dynamic problems in 3-D structures
Isogeometric Boundary Element Methods
Isogeometric Boundary Element Methods
Locking-free and Distortion Insensitive Finite Elements for Large Deformation Hyper-Elasticity: Gradient Smoothing
Locking-free and Distortion Insensitive Finite Elements for Large Deformation Hyper-Elasticity: Gradient Smoothing
Quadtree and Octree Implicit Boundary Methods
Quadtree and Octree Implicit Boundary Methods
SINGLE AND MULTIPLE CRACK GROWTH IN ORTHOTROPIC COMPOSITE LAMINAE: A NUMERICAL AND EXPERIMENTAL INVESTIGATION
SINGLE AND MULTIPLE CRACK GROWTH IN ORTHOTROPIC COMPOSITE LAMINAE: A NUMERICAL AND EXPERIMENTAL INVESTIGATION
Stable Meshless Methods for Soft-Tissue Simulation
Stable Meshless Methods for Soft-Tissue Simulation

Search

Recent posts

  • TWINNING workshop in Luxembourg
  • ERCIM “Alain Bensoussan” Fellowship Programme
  • IWR School 2019: “A Crash Course in Machine Learning with Applications in Natural- and Life Sciences (ML4Nature)”
  • Michael Ortiz “Model-Free Data-Driven Computing”
  • Mock ERC panel at UL

Menu

  • Home
  • Mission & Projects
  • News
  • People
  • Publications
  • Resources
  • inCERT publications
  • Media
  • Contacts
  • Mentions légales

Contact

6 Rue Richard Coudenhove-Kalergi

1359 Luxembourg

Luxembourg

Social

  • Twitter
  • Facebook
  • Linkedin
  • Youtube
Copyright © 2020 Legato Team. Powered by WordPress. Theme: Accelerate by ThemeGrill.
  • Home
  • Mission & Projects
  • News
  • People
  • Publications
  • Resources
  • inCERT publications
  • Media
  • Contacts
  • Mentions légales
This website uses cookies to improve your experience. We'll assume you're ok with this, but you can opt-out if you wish. Cookie settingsACCEPT
Privacy & Cookies Policy

Privacy Overview

This website uses cookies to improve your experience while you navigate through the website. Out of these cookies, the cookies that are categorized as necessary are stored on your browser as they are as essential for the working of basic functionalities of the website. We also use third-party cookies that help us analyze and understand how you use this website. These cookies will be stored in your browser only with your consent. You also have the option to opt-out of these cookies. But opting out of some of these cookies may have an effect on your browsing experience.
Necessary Always Enabled

Necessary cookies are absolutely essential for the website to function properly. This category only includes cookies that ensures basic functionalities and security features of the website. These cookies do not store any personal information.