On goal-oriented error estimation for elliptic problems: Application to the control of pointwise errors

Error bounds for the reliability index in finite element reliability analysis, On the techniques for constructing admissible stress fields in model verification: Performances on engineering examples, Guaranteed computable bounds on quantities of interest in finite element computations, Computing an upper bound on contact stress with surrogate duality, Error Decomposition and Adaptivity for Response Surface Approximations from PDEs with Parametric Uncertainty, An Adaptive Multilevel Monte Carlo Method with Stochastic Bounds for Quantities of Interest with Uncertain Data, Local problem-based a posteriori error estimators for discontinuous Galerkin approximations of reactive transport, Pointwise Error Estimation for the One-Dimensional Transport Equation Based on the Variational Multiscale Method, Goal-oriented error estimation based on equilibrated flux and potential reconstruction for the approximation of elliptic and parabolic problems, New bounding techniques for goal-oriented error estimation applied to linear problems, A basis for bounding the errors of proper generalised decomposition solutions in solid mechanics, Modal-based goal-oriented error assessment for timeline-dependent quantities in transient dynamics, Error estimation and model adaptation for a stochastic-deterministic coupling method based on the Arlequin framework, A finite element method with mesh-separation-based approximation technique and its application in modeling crack propagation with adaptive mesh refinement, Constant-free explicit error estimator with sharp upper error bound property for adaptive FE analysis in elasticity and fracture, Dual-based adaptive FEM for inelastic problems with standard FE implementations, An Introductory Review on A Posteriori Error Estimation in Finite Element Computations, An MP-DWR method for \(h\)-adaptive finite element methods, Goal-oriented adaptive finite element multilevel Monte Carlo with convergence rates, Linearization errors in discrete goal-oriented error estimation, A probabilistic data assimilation framework to reconstruct finite element error fields from sparse error estimates: Application to sub‐modeling, A deep Fourier residual method for solving PDEs using neural networks, Residual-based error correction for neural operator accelerated Infinite-dimensional Bayesian inverse problems, Residual-based error corrector operator to enhance accuracy and reliability of neural operator surrogates of nonlinear variational boundary-value problems, CAD Model Simplification Error Estimation for Electrostatics Problems, Unnamed Item, A constitutive relation error estimator based on traction-free recovery of the equilibrated stress, Error estimation and adaptivity for discontinuous failure, Strict and effective bounds in goal-oriented error estimation applied to fracture mechanics problems solved with XFEM, Robust a posteriori error estimation for parameter-dependent linear elasticity equations, A POD goal‐oriented error measure for mesh optimization, A simple estimator for stress errors dedicated to large elastic finite element simulations, Adaptive meshing for local quality of FE stresses, Error estimates and adaptive finite element methods, Local error estimates of FEM for displacements and stresses in linear elasticity by solving local Neumann problems, On computing upper and lower bounds on the outputs of linear elasticity problems approximated by the smoothed finite element method, Dual adaptive finite element refinement for multiple local quantities in linear elastostatics, Bounds for quantities of interest and adaptivity in the element-free Galerkin method, On a posteriori pointwise error estimation using adjoint temperature and Lagrange remainder, Goal-oriented error estimation and adaptivity for the finite element method, Local estimation of the error in the von Mises' stress and L2‐norm of the stress for linear elasticity problems, Pointwise error estimation and adaptivity for the finite element method using fundamental solutions, Calculation of strict error bounds for finite element approximations of non-linear pointwise quantities of interest, Using fundamental solutions in the scaled boundary finite element method to solve problems with concentrated loads, Goal-oriented space-time adaptivity for transient dynamics using a modal description of the adjoint solution, Goal-oriented error estimation for Cahn-Hilliard models of binary phase transition, An Abstract Analysis of Optimal Goal-Oriented Adaptivity, NCP Function--Based Dual Weighted Residual Error Estimators for Signorini's Problem, Two-Side a Posteriori Error Estimates for the Dual-Weighted Residual Method, Goal-Oriented Adaptive Mesh Refinement for Discontinuous Petrov--Galerkin Methods, Bounds on outputs of the exact weak solution of the three-dimensional Stokes problem, Aspects of Guaranteed Error Control in CPDEs, A posteriori error estimates in quantities of interest for the finite element heterogeneous multiscale method, Goal-oriented a posteriori error estimates in linear elastic fracture mechanics, Subdomain-based flux-free a posteriori error estimators, The computation of bounds for linear-functional outputs of weak solutions to the two-dimensional elasticity equations, Non-intrusive Uncertainty Propagation with Error Bounds for Conservation Laws Containing Discontinuities, Linearization of the Travel Time Functional in Porous Media Flows, Guaranteed error bounds in homogenisation: an optimum stochastic approach to preserve the numerical separation of scales, Asymptotically exact functional error estimators based on superconvergent gradient recovery, A posteriori error estimation for acoustic wave propagation problems, Analysis of a goal-oriented adaptive two-grid finite-element algorithm for semilinear elliptic problems, An efficient method for computing local quantities of interest in elasticity based on finite element error estimation, Strict error bounds for linear solid mechanics problems using a subdomain-based flux-free method, Goal functional evaluations for phase-field fracture using PU-based DWR mesh adaptivity, Some improvements to the flux-type a posteriori error estimators, A non-intrusive method for the calculation of strict and efficient bounds of calculated outputs of interest in linear viscoelasticity problems, Simulation-based classification; a model-order-reduction approach for structural health monitoring, Goal-oriented a posteriori error estimation for the biharmonic problem based on an equilibrated moment tensor, Application of \(hp\)-adaptive finite element method to two-scale computation, NTFA-enabled goal-oriented adaptive space-time finite elements for micro-heterogeneous elastoplasticity problems, A priori mesh quality metrics for three-dimensional hybrid grids, Rapid development and adjoining of transient finite element models, Mesh quality assessment based on aerodynamic functional output total derivatives, Goal-oriented h-type adaptive finite elements for micromorphic elastoplasticity, Pointwise dual weighted residual based goal-oriented \textit{a posteriori} error estimation and adaptive mesh refinement in 2D/3D thermo-mechanical multifield problems, Goal-oriented adaptivity and multilevel preconditioning for the Poisson-Boltzmann equation, The dual-weighted residual estimator realized on polygonal meshes, A posteriori error estimation and adaptivity in non-intrusive couplings between concurrent models, Adaptive finite element methods for the identification of elastic constants, Mesh and model adaptivity for frictional contact problems, Goal-oriented adaptivity for GMsFEM, Stochastic goal-oriented error estimation with memory, An enhanced method with local energy minimization for the robust a posteriori construction of equilibrated stress fields in finite element analyses, Goal-oriented adaptive modeling of random heterogeneous media and model-based multilevel Monte Carlo methods, Multiscale modeling using goal-oriented adaptivity and numerical homogenization. I: Mathematical formulation and numerical results, On the adjoint-consistent formulation of interface conditions in goal-oriented error estimation and adaptivity for fluid-structure interaction, Goal-oriented error control in adaptive mixed FEM for Signorini's problem, Goal-oriented error estimation for the automatic variationally stable FE method for convection-dominated diffusion problems, Error assessment and mesh adaptivity for regularized continuous failure models, A new non-intrusive technique for the construction of admissible stress fields in model verification, Model verification in dynamics through strict upper error bounds, Numerical simulation of borehole acoustic logging in the frequency and time domains with \(hp\)-adaptive finite elements, T-IFISS: a toolbox for adaptive FEM computation, Simulations of 3D DC borehole resistivity measurements with a goal-oriented \(hp\) finite-element method. Part II: Through-casing resistivity instruments, Adaptive reduced basis finite element heterogeneous multiscale method, Adaptive \(hpq\) finite element methods for the analysis of 3D-based models of complex structures. Part II: A posteriori error estimation, Scalable angular adaptivity for Boltzmann transport, Numerical investigation of effectivity indices of space-time error indicators for Navier-Stokes equations, A flux-free a posteriori error estimator for the incompressible Stokes problem using a mixed FE formulation, Solution verification, goal-oriented adaptive methods for stochastic advection-diffusion problems, Adaptive modeling of turbulent flow with residual based turbulent kinetic energy dissipation, Goal-oriented \(r\)-adaptivity based on variational arguments in the physical and material spaces, Verification of stochastic models in uncertain environments using the constitutive relation error method, Remeshing criteria and proper error representations for goal oriented \(h\)-adaptivity, Goal-oriented error estimation based on equilibrated-flux reconstruction for finite element approximations of elliptic problems, A sequential-adaptive strategy in space-time with application to consolidation of porous media, Strict upper error bounds on computed outputs of interest in computational structural mechanics, Superconvergence of elliptic reconstructions of finite element solutions of parabolic problems in domains with piecewise smooth boundaries, Error assessment in structural transient dynamics, Strict upper bounds of the error in calculated outputs of interest for plasticity problems, Computable bounds of functional outputs in linear visco-elastodynamics, Adjoint-based error estimation and mesh adaptation for stabilized finite deformation elasticity, Goal-oriented error estimation and adaptivity for elliptic PDEs with parametric or uncertain inputs, Goal-oriented error estimation and adaptivity in MsFEM computations, \textit{A posteriori} error estimation for isogeometric analysis using the concept of constitutive relation error, A posteriori goal-oriented bounds for the Poisson problem using potential and equilibrated flux reconstructions: application to the hybridizable discontinuous Galerkin method, Heuristic a posteriori estimation of error due to dissipation in finite volume schemes and application to mesh adaptation, Goal-oriented error estimation for fluid-structure interaction problems, Goal-oriented adaptivity using unconventional error representations for the 1D Helmholtz equation, \(L^{2}(H^{1})\) norm a posteriori error estimation for discontinuous Galerkin approximations of reactive transport problems, In search of a consistent and conservative mass flux for the GWCE, A posteriori error estimation and dynamic adaptivity for symmetric discontinuous Galerkin approximations of reactive transport problems, Goal-oriented adaptivity for a conforming residual minimization method in a dual discontinuous Galerkin norm, Adjoint a posteriori error measures for anisotropic mesh optimisation, A posteriori error estimates for sequential laminates in shape optimization, A priori mesh quality estimation via direct relation between truncation error and mesh distortion, Variational multiscale a posteriori error estimation for systems. Application to linear elasticity, Strict bounding of quantities of interest in computations based on domain decomposition, Strict upper and lower bounds for quantities of interest in static response sensitivity analysis, Study of the strong prolongation equation for the construction of statically admissible stress fields: implementation and optimization, On the duality of finite element discretization error control in computational Newtonian and Eshelbian mechanics, A partition-of-unity dual-weighted residual approach for multi-objective goal functional error estimation applied to elliptic problems, A posteriori pointwise error computation for 2-D transport equations based on the variational multiscale method, Worst-case multi-objective error estimation and adaptivity, Model adaptivity on effective elastic properties coupled with adaptive FEM, Time-domain goal-oriented adaptivity using pseudo-dual error representations, \textit{A posteriori} error estimation and adaptive strategy for PGD model reduction applied to parametrized linear parabolic problems, A new goal-oriented formulation of the finite element method, Model adaptivity for goal-oriented inference using adjoints, Dual weighted residual error estimation for the finite cell method, Hierarchical models of thin elastic structures: overview and recent advances in error estimation and adaptivity, A self-adaptive goal-oriented \(hp\)-finite element method with electromagnetic applications. II: Electrodynamics, Error-controlled adaptive goal-oriented modeling and finite element approximations in elasticity, Adaptive domain decomposition for the bound method: application to the incompressible Navier-Stokes and energy equations in three space dimensions, A two-dimensional self-adaptive \(hp\) finite element method for the characterization of waveguide discontinuities. II: Goal-oriented \(hp\)-adaptivity, Goal-oriented a-posteriori estimation of model error as an aid to parameter estimation, Goal-oriented a posteriori error estimation for conforming and nonconforming approximations with inexact solvers, On a goal-oriented version of the proper generalized decomposition method, A painless multi-level automatic goal-oriented \(hp\)-adaptive coarsening strategy for elliptic and non-elliptic problems, Estimation of local modeling error and goal-oriented adaptive modeling of heterogeneous materials. I: Error estimates and adaptive algorithms, Goal-oriented adaptive finite element methods for elliptic problems revisited, Evaluation of the local quality of stresses in 3D finite element analysis., The efficient computation of bounds for functionals of finite element solutions in large strain elasticity., Adjoint correction and bounding of error using Lagrange form of truncation term, Estimation of modeling error in computational mechanics., Adaptive discontinuous Galerkin finite element methods for the compressible Euler equations., Goal-oriented error estimation and h-adaptive finite elements for hyperelastic micromorphic continua, \(hp\) boundary element modeling of the external human auditory system -- goal-oriented adaptivity with multiple load vectors.

• Unnamed Item
• Unnamed Item
• Unnamed Item
• Unnamed Item
• Unnamed Item
• Toward a universal h-p adaptive finite element strategy. I: Constrained approximation and data structure
• A posteriori error control in finite element methods via duality techniques: Application to perfect plasticity
• A posteriori finite element bounds for linear-functional outputs of elliptic partial differential equations
• A unified approach to a posteriori error estimation using element residual methods
• A posteriori error estimation in finite element analysis
• A hierarchical duality approach to bounds for the outputs of partial differential equations
• A posteriori error estimation and error control for finite element approximations of the time-dependent Navier--Stokes equations
• A Posteriori Error Estimates Based on Hierarchical Bases
• Some A Posteriori Error Estimators for Elliptic Partial Differential Equations
• Error Estimate Procedure in the Finite Element Method and Applications
• The superconvergent patch recovery anda posteriori error estimates. Part 1: The recovery technique
• The superconvergent patch recovery anda posteriori error estimates. Part 2: Error estimates and adaptivity
• A‐posteriori error estimates for the finite element method
• Validation of a posteriori error estimators by numerical approach