Spatial Modeling: spatial data models integrating the geometric and semantic aspects of geographic information, requirements analysis for GIS applications, GIS performance modeling and evaluation, qualitative aspects of geographic information, impact of spatial information handling on computing models.
Spatial Databases: spatio-temporal data structures, spatial data storage and indexing techniques, query processing and optimization, spatial database knowledge discovery, GIS metadata, multidatabase GIS.
Human-Computer Interfaces for GIS: graphic user interfaces for GIS, graphic browser interfaces for navigating spatial databases, multimedia applied to GIS, virtual reality for representing spatial data.
Digital Cartography at the Core of GIS: multidimensional digital map display technology, cartographic generalization for multiscale representation, computer-aided cartographic design, automated map aesthetics management, dynamic cartography, animated map technology.
Space Imagery in GIS: remote sensing, spatial image processing, shape recognition from aerial and satellite images, spatial information measurement and retrieval.
Parallelism, Distribution and Communication through GIS: parallel, distributed processing of spatial data, client-server architecture for GIS, GIS and cooperative work, manipulation of geographic information over the Internet, interoperability among heterogeneous GIS, electronic geographic data interchange standards, concurrent and distributed spatial objects.
Spatio-Temporal Reasoning: reasoning in GIS, spatio-temporal knowledge processing, fuzzy spatio-temporal information, artificial intelligence in GIS, genetic and neural algorithms in GIS, moving objects within GIS, real-time GIS, active spatio-temporal objects.
GeoInformatica is focused on Advances in Computer Science for GIS as noted in its title. Usually reviewers expect computer science advances for GIS to be general, e.g., applicable to more than one application domain.
Reviewers have often found the following types of papers outside GeoInformatica's scope:
(a) application of a previously known computer science concept or application of software to a new GIS problem, and
(b) computer science advances with a tenuous connection to GIS problems.