Objective: To present the first real-time a posteriori error-driven adaptive finite element approach for realtime simulation and to demonstrate the method on a needle insertion problem. Methods: We use corotational elasticity and a frictional needle/tissue interaction model. The problem is solved using finite elements within SOFA1. The refinement strategy relies upon a hexahedron-based finite element method, combined with a posteriori error estimation driven local h-refinement, for simulating soft tissue deformation. Results: We control the local and global error level in the mechanical fields (e.g. displacement or stresses) during the simulation. We show the convergence of the algorithm on academic examples, and demonstrate its practical u...
International audienceThis paper introduces an interactive model of needle insertion, including the ...
International audienceThis paper introduces a method for robotic steering of a flexible needle insid...
International audienceThis paper introduces a new method for automatic robotic needle steering in de...
Objective: To present the first real-time a posteriori error-driven adaptive finite element approach...
International audienceObjective: To present the first real-time a poste-riori error-driven adaptive ...
This paper presents the first real-time discretisation-error-driven adaptive finite element approach...
We present an error-controlled mesh refinement procedure for needle insertion simulation and apply i...
International audienceAn error-controlled mesh refinement procedure for needle insertion simulations...
We present an error-controlled mesh refinement procedure for needle insertion simulation and apply i...
An error‐controlled mesh refinement procedure for needle insertion simulations is presented. As an e...
International audienceWe present the Corotational Cut Finite Element Method for real-time surgical s...
International audienceErrors in biomechanics simulations arise from modeling and discretization. Mod...
peer reviewedThis paper presents a numerical method for interactive (real-time) simulations, which c...
Interactive surgery simulations have conflicting requirements of speed and accuracy. In this paper ...
International audienceThis paper introduces an interactive model of needle insertion, including the ...
International audienceThis paper introduces a method for robotic steering of a flexible needle insid...
International audienceThis paper introduces a new method for automatic robotic needle steering in de...
Objective: To present the first real-time a posteriori error-driven adaptive finite element approach...
International audienceObjective: To present the first real-time a poste-riori error-driven adaptive ...
This paper presents the first real-time discretisation-error-driven adaptive finite element approach...
We present an error-controlled mesh refinement procedure for needle insertion simulation and apply i...
International audienceAn error-controlled mesh refinement procedure for needle insertion simulations...
We present an error-controlled mesh refinement procedure for needle insertion simulation and apply i...
An error‐controlled mesh refinement procedure for needle insertion simulations is presented. As an e...
International audienceWe present the Corotational Cut Finite Element Method for real-time surgical s...
International audienceErrors in biomechanics simulations arise from modeling and discretization. Mod...
peer reviewedThis paper presents a numerical method for interactive (real-time) simulations, which c...
Interactive surgery simulations have conflicting requirements of speed and accuracy. In this paper ...
International audienceThis paper introduces an interactive model of needle insertion, including the ...
International audienceThis paper introduces a method for robotic steering of a flexible needle insid...
International audienceThis paper introduces a new method for automatic robotic needle steering in de...