The accessibility to a huge quantity of data gathered by remote sensing of planetary
missions vindicate the utilization of Geographic Information Systems (GIS) to study
and analyze outer space planets and trajectories to reach them. As data size raise,
the exploitation of GIS methods provide the scientists with approach for rapid data
retrieval, while detailed examination of heterogeneous data grant the possibility
of making perceptible differentiation analysis along various batches of data which
in a different state or situation could be complicated to be implemented. The work
introduced here characterizes the mission of Cassini-Huygens Spacecraft with its phases
and the related mission parameters besides providing analyze visualization and conception
of a remotely sensed dataset with a GIS scope that conferring the possibility to carry
out deep analysis for the mission path and the related planetary data.
