Cognitive Aspects of Human-Computer Interaction for GIS
Fritsch, Dieter
Cognitive Aspects of Human-Computer Interaction for GIS
English[eng]
cyberpsychology||n/a||trajectory datasets||trapezoid||movement data||space use intensity||hypsography||geospatial data||map tasks||knowledge integration||immersive virtual reality||knowledge conflation||OLS||multiresolution segmentation||3D geovisualizations||SpatialHadoop||contour lines||high definition video||immersion||PR-Tree||similarity metrics||PCA||map users||retrospective verbal protocol||collaborative learning||telepresence||4D time density||eye-tracking||level-of-detail rendering||visual data exploration||Head-mounted display||hedonic price model||sense of presence||collaborative immersive virtual environment||gender effects||tessellation||spatiotemporal movement patterns||building tracking||indoor wayfinding||cartographic simplification||height estimate||map literacy||random forest||3DmoveR||level of interactivity||entity alignment||3D data cube||human–computer interaction||International Space Station (ISS)||vector polygon||cloud computing||OSIVQ||spatial data processing||user study||age effects||geographic knowledge bases||Ljubljana||3D map||user’s performance||similarity combination
Cognitive Aspects of Human-Computer Interaction for GIS
English[eng]
cyberpsychology||n/a||trajectory datasets||trapezoid||movement data||space use intensity||hypsography||geospatial data||map tasks||knowledge integration||immersive virtual reality||knowledge conflation||OLS||multiresolution segmentation||3D geovisualizations||SpatialHadoop||contour lines||high definition video||immersion||PR-Tree||similarity metrics||PCA||map users||retrospective verbal protocol||collaborative learning||telepresence||4D time density||eye-tracking||level-of-detail rendering||visual data exploration||Head-mounted display||hedonic price model||sense of presence||collaborative immersive virtual environment||gender effects||tessellation||spatiotemporal movement patterns||building tracking||indoor wayfinding||cartographic simplification||height estimate||map literacy||random forest||3DmoveR||level of interactivity||entity alignment||3D data cube||human–computer interaction||International Space Station (ISS)||vector polygon||cloud computing||OSIVQ||spatial data processing||user study||age effects||geographic knowledge bases||Ljubljana||3D map||user’s performance||similarity combination