Adaptive Isogeometric Digital Height Correlation: Application to Stretchable Electronics

Abstract: A novel adaptive isogeometric digital height correlation (DHC) technique has been developed in which the set of shape functions, needed for discretization of the ill-posed DHC problem, is autonomously optimized for each specific set of profilometric height images, without a priori knowledge of the kinematics of the experiment. To this end, an adaptive refinement scheme is implemented, which refines the shape functions in a hierarchical manner. This technique ensures local refinement, only in the areas where ne… Show more

“…An alternative approach has been proposed, which enables the local refinement of the control grid . In a previous study, an adaptive refinement technique was performed in a hierarchical manner to describe geometries and displacements.…”

Virtual image correlation of magnetic resonance images for 3D geometric modelling of pelvic organs

“…An alternative approach has been proposed, which enables the local refinement of the control grid . In a previous study, an adaptive refinement technique was performed in a hierarchical manner to describe geometries and displacements.…”

Virtual image correlation of magnetic resonance images for 3D geometric modelling of pelvic organs

“…Finally, the identification could be extended to include additional measurement data to improve robustness and accuracy. For instance, (quasi-)3D DIC, also know as Digital Height Correlation [29] , could be employed on nanoscale Atomic Force Microscopy (AFM) measurements, to access additional 3D displacement gradient tensor components, which can directly be included in the minimization function. Additionally, simultaneous in-situ EBSD (along DIC) [30] can yield local lattice rotations, and in particular their rotation axes, which might also contribute to the identification.…”

Automated identification of slip system activity fields from digital image correlation data

“…Although 3D effects are crucial for accurate identification, they are difficult to capture, and are capable of introducing large errors when not treated properly. Methodologies accounting for out-of-plane motion effects should be considered in such cases, including digital height correlation (Kleinendorst et al, 2016;Uzun and Korsunsky, 2019), digital volume correlation (Leclerc et al, 2011), and full 3D models. In Eq.…”

Integrated digital image correlation for micro-mechanical parameter identification in multiscale experiments