TY - GEN
T1 - Towards a semantically unified environmental information space
AU - Nešić, Saša
AU - Rizzoli, Andrea Emilio
AU - Athanasiadis, Ioannis N.
PY - 2011
Y1 - 2011
N2 - In recent years we have witnessed a proliferation of environmental information on the Web thanks to advances in automated data acquisition and to the widespread use of computer based models and decision support systems processing environmental data. The number of environmental data providers has been also increasing. However, each provider manages its own data sets encoded into specific data formats and unaware of related and relevant data managed by other providers. Also, most of the environmental data providers store their data into huge, centralized repositories, which makes the access and discovery of desired data difficult. The Linked Data principles along with the Semantic Web technologies have been recognized as a promising solution to both environmental data integration and discovery. Unique identification of environmental data by HTTP dereferencable URIs, semantic annotation of environmental data by shared domain conceptualizations (ontologies), and interlinking of related environmental data by typed (semantic) links will enable the integration of disconnected environmental data sets into the semantically unified environmental information space. Semantic annotations and semantic links will then enable semantic discovery of environmental data over such unified information space. In this paper, we try to identify a number of requirements that environmental data providers should satisfy in order to make their data fully contribute to this vision. In particular, we are focused on requirements regarding environmental data identification, representation, annotation and linking.
AB - In recent years we have witnessed a proliferation of environmental information on the Web thanks to advances in automated data acquisition and to the widespread use of computer based models and decision support systems processing environmental data. The number of environmental data providers has been also increasing. However, each provider manages its own data sets encoded into specific data formats and unaware of related and relevant data managed by other providers. Also, most of the environmental data providers store their data into huge, centralized repositories, which makes the access and discovery of desired data difficult. The Linked Data principles along with the Semantic Web technologies have been recognized as a promising solution to both environmental data integration and discovery. Unique identification of environmental data by HTTP dereferencable URIs, semantic annotation of environmental data by shared domain conceptualizations (ontologies), and interlinking of related environmental data by typed (semantic) links will enable the integration of disconnected environmental data sets into the semantically unified environmental information space. Semantic annotations and semantic links will then enable semantic discovery of environmental data over such unified information space. In this paper, we try to identify a number of requirements that environmental data providers should satisfy in order to make their data fully contribute to this vision. In particular, we are focused on requirements regarding environmental data identification, representation, annotation and linking.
KW - environmental data identification
KW - semantic annotation
KW - semantic linking
U2 - 10.1007/978-3-642-22285-6_44
DO - 10.1007/978-3-642-22285-6_44
M3 - Conference paper
AN - SCOPUS:79960816706
SN - 9783642222849
SN - 9783642268786
T3 - IFIP Advances in Information and Communication Technology
SP - 407
EP - 418
BT - Environmental Software Systems
A2 - Hřebíček, J.
A2 - Schimak, G.
A2 - Denzer, R.
PB - Springer
CY - Heidelberg
T2 - 9th IFIP WG 5.11 International Symposium on Environmental Software Systems: Frameworks of eEnvironment, ISESS 2011
Y2 - 27 June 2011 through 29 June 2011
ER -