@inproceedings{PB-VRVis-2019-017,
author = {Paar, Gerhard and Ortner, Thomas and Traxler, Christoph and Piringer, Harald and Schimkowitsch, Maria and Fritz, Laura and Triebnig, Gerhard and Schindler, Fabian and Nauschnegg, Bernhard},
title = {Associating Planetary Instruments’ Data by 3D GIS and
  Visual Analysis: The MINERVA Framework},
year = {2019},
booktitle = {EPSC Abstracts Vol.13, 2019},
editor = {n.n.},
url = {https://www.vrvis.at/publications/PB-VRVis-2019-017},
volume = {13},
abstract = {Planetary surface missions have emerged into  complex robotic sensor frameworks collecting  valuable yet heterogeneous data along the mission  timeframe and spatially distributed across the probe’s  working range. MINERVA provides a 3D data base,  an interactive 3D viewer with GIS functionality and a  visual analytics platform that helps find correlations  between data coming from different instruments to  discover new modes of scientific exploitation. It  facilitates the access and collaborative interpretation  of planetary science data, including instrument  products, analyses, and annotations. It allows  members of different instrument teams to cooperate  in virtual workspaces by sharing observations and  analyzing and annotating data in a collaborative  fashion. We report on latest MINERVA  developments and draw the path to its usage within  forthcoming robotic missions including ExoMars.},
}