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This paper should be considered as an addendum to [A. Buffa and C. Giannelli, Adaptive isogeometric methods with hierarchical splines: Error estimator and convergence, Math. Models Methods Appl. Sci. 26 (2016) 1-25] and [A. Buffa and C. Giannelli, Adaptive isogeometric methods with hierarchical splines: Optimality and convergence rates, Math. Models Methods Appl. Sci. 27 (2017) 2781-2802] where Poincare and approximation estimates are used as theoretical tools to study properties of adaptive numerical methods based on hierarchical B-splines. After noting that the support of truncated hierarchical B-splines may be disconnected (and thus no Poincare estimate can hold), we study minimal extensions of their support on suitable mesh configurations such that (i) Poincare estimates can be established on them and (ii) their overlaps stay independent of the number of levels. The Poincare estimates proposed in this note should replace the ones used in the proofs of Theorem 11 and Lemma 7 in [A. Buffa and C. Giannelli, Adaptive isogeometric methods with hierarchical splines: Error estimator and convergence, Math. Models Methods Appl. Sci. 26 (2016) 1-25] and [A. Buffa and C. Giannelli, Adaptive isogeometric methods with hierarchical splines: Optimality and convergence rates, Math. Models Methods Appl. Sci. 27 (2017) 2781-2802], respectively, in order to include the most general meshes, i.e. the cases when the support of truncated basis functions can be disconnected.
Alfio Quarteroni, Francesco Regazzoni
Annalisa Buffa, Pablo Antolin Sanchez, Emiliano Cirillo