Hänel, ClaudiaDemiralp, Ali C.Axer, MarkusGrässel, DavidHentschel, BerndKuhlen, Torsten W.Barbora Kozlikova and Tobias Schreck and Thomas Wischgoll2017-06-122017-06-122017978-3-03868-043-7https://doi.org/10.2312/eurovisshort.20171145https://diglib.eg.org:443/handle/10.2312/eurovisshort201711453D-Polarized Light Imaging (3D-PLI) provides data that enables an exploration of brain fibers at very high resolution. However, the visualization poses several challenges. Beside the huge data set sizes, users have to visually perceive the pure amount of information which might be, among other aspects, inhibited for inner structures because of occlusion by outer layers of the brain. We propose a clustering of fiber directions by means of spherical harmonics using a level-of-detail structure by which the user can interactively choose a clustering degree according to the zoom level or details required. Furthermore, the clustering method can be used for the automatic grouping of similar spherical harmonics automatically into one representative. An optional overlay with a direct vector visualization of the 3D-PLI data provides a better anatomical context.CCS ConceptsHumancentered computing>Visualization techniquesScientific visualization10.2312/eurovisshort.20171145127-131