Home // GEOProcessing 2014, The Sixth International Conference on Advanced Geographic Information Systems, Applications, and Services // View article
Authors:
Claus-Peter Rückemann
Keywords: Geosciences; Knowledge Resources; Integrated Systems; Sustainability; Information Systems; Volcanology; Archaeology; Classification; UDC; High Performance Computing.
Abstract:
This paper presents the results from creating and using long-term knowledge resources for knowledge processing by employing a universal classification. The knowledge objects can further comprise specialised research data collections and refer to any kind of multi-disciplinary data. The resources can be sustainably used for documentation, universal classification, and structuring as well as with scientific supercomputing resources for advanced information systems, supporting discovery and decision making. The case study discusses selected examples from the geosciences context. Within the case studies the structure of the resources and the Universal Decimal Classification (UDC) has been used together with spatial information in order to handle and support workflows and visualisations for multi-disciplinary data and features. Implementations of various components have been created for discovery and development using dynamical, interactive, and batch computing and storage resources in an Integrated Information and Computing System environment exploiting High End Computing (HEC) and High Performance Computing (HPC) resources and UDC. The paper discusses the new results and practical cases regarding a multi-disciplinary geosciences, volcanology, and spatial features scenario from long-term knowledge resources.
Pages: 76 to 82
Copyright: Copyright (c) IARIA, 2014
Publication date: March 23, 2014
Published in: conference
ISSN: 2308-393X
ISBN: 978-1-61208-326-1
Location: Barcelona, Spain
Dates: from March 23, 2014 to March 27, 2014