Strabon

diff endpoint/WebContent/teleios-header.html @ 688:9a4bb8e81273

split queryresultio-spatial into submodules (one for API that provides the stSPARQLQueryResultFormat and one for each writer implementation, e.g., XML, HTML, etc.)
Renamed resultio to resultio-spatial.
Renamed endpoint-client artifact to strabon-endpoint-client.
Moved org.openrdf.resultio.Format to eu.earthobservatory.utils.
Renamed and moved org.openrdf.resultio.stSPARQLQueryResultWriter to eu.earthobservatory.utils.stSPARQLQueryResultToFormatAdapter. This is a factory class for stSPARQLQueryResults.

NOTICE: You should import the whole Strabon project into Eclipse to work with this commit
author Babis Nikolaou <charnik@di.uoa.gr>
date Tue Nov 06 19:24:43 2012 +0200 (2012-11-06)
parents 34e68fb2a595
children
line diff
     1.1 --- a/endpoint/WebContent/teleios-header.html	Wed Oct 03 17:50:55 2012 +0300
     1.2 +++ b/endpoint/WebContent/teleios-header.html	Tue Nov 06 19:24:43 2012 +0200
     1.3 @@ -23,19 +23,22 @@
     1.4  <a>Greek Administrative Geography (Kallikratis)</a>, 
     1.5  <a href="http://labs.mondeca.com/dataset/lov/details/vocabulary_lgdo.html">Linked Geodata</a>, and 
     1.6  <a href="http://www.geonames.org/search.html?q=ontology&country=">Geonames</a>.
     1.7 -We also use the <a href="images/graph.png">NOA ontology</a> we developed for the 
     1.8 -<a href="http://www.space.noa.gr/">NOA</a> use case of the European FP7 project 
     1.9 -<a href="http://www.earthobservatory.eu/">TELEIOS</a>. 
    1.10 +We also use the <a href="http://teleios.di.uoa.gr/ontologies/dlrOntology-v2.owl">DLR</a> and <a href="http://teleios.di.uoa.gr/ontologies/noaOntology.owl">NOA</a> ontology we developed for the 
    1.11 +in the context of the European FP7 project <a href="http://www.earthobservatory.eu/">TELEIOS</a>. 
    1.12  <!--  <a onclick="return toggleMe('par')">(More)</a>  -->
    1.13 -
    1.14 +<!--
    1.15  In this context NOA has been developing a real-time fire hotspot detection service for effectively monitoring 
    1.16  a fire-front. The technique is based on the use of acquisitions originating from the SEVIRI  sensor, on top of MSG-1 and MSG-2 satellite platforms.
    1.17 +-->
    1.18  <!-- Since 2007, NOA operates an MSG/SEVIRI acquisition station, and has been systematically
    1.19  archiving raw satellite images on a 5 and 15 minutes basis, the respective temporal resolutions of MSG-1 and MSG-2.  -->
    1.20  The acquired data are then annotated using the stRDF model and can be queried using the stSPARQL query language.
    1.21   
    1.22 -On the left sidebar, some example stSPARQL queries are provided. The NOA use case is described in more detail in the VLDB
    1.23 -demo paper <a href="http://www.earthobservatory.eu/publications/p2010_manoliskoubarakis_vldb2012-2.pdf">here</a>. </p> 
    1.24 +On the left sidebar, some example stSPARQL queries are provided. 
    1.25 +<!--The NOA use case is described in more detail in the VLDB
    1.26 +demo paper <a href="http://www.earthobservatory.eu/publications/p2010_manoliskoubarakis_vldb2012-2.pdf">here</a>. 
    1.27 +-->
    1.28 +</p> 
    1.29        </TD>
    1.30  	</TR>
    1.31  </TABLE>