Münch, StefanStefanMünchRöllig, MikeMikeRölligBalzani, DanielDanielBalzani2022-03-062022-03-062021https://publica.fraunhofer.de/handle/publica/27101410.1002/pamm.202000052The aim of the study presented here is the non-invasive and in-vivo measurement of material parameters of the eye. For this purpose, we propose a method for the construction of full-field displacements from 2D deformation contours to enable a fast identification of material parameters, which could be used as advanced diagnostic tool for a broad range of diseases of the human eye. First results are presented here based on virtual test setups which should be confirmed through the use of real medical data in the future.enLuftpulstonometriecorneaBiomechanikinverse MethodenNon-Contact-Tonometrybiomechanicsinverse method620510666journal article