2.4. The computation tierThe comput

2.4. The computation tier
The computation tier consists of services for visualization and download of
georeferenced data. Based on the distributed data tier, a two step service provision
workflow was designed and implemented. In a first step, Web Map Services (WMS) are
offered on top of the distributed data sources. In a second step geoprocessing services are
implemented to offer on demand download of datasets from a specific area. The download
services allow the interactive selection of the area of interest, followed by data extraction
(clipping) from the data source, and finally by the provision of a temporary download link
to the extracted data.
From the cartographic point of view, we will focus on Web Map Services as the
proposed platform for the visualization. WMS are standardized interfaces to provide maps
with the GetMap request and metadata with the GetCapabilities and GetFeatureInfo
requests (ISO, 2005). Topographic data is offered with a standard WMS implementation
based on ArcGIS Server (ArcGIS Server, 2010).
Although not open source, the ArcGIS Server infrastructure is shared with additional
projects such as the Geodata Visualization and Interactive Training Environment –
GeoVITe (GeoVITe, 2010). The GeoVITe project aims to offer an easy-to-use online access
to the most important geodatasets provided by the Swiss national mapping agency to ETH
Zurich for teaching and research purposes. The common usage of the hardware and
software infrastructure for GIS service not only creates synergies among different projects
but also offers higher performance, stability and longer maintainability after the end of one
individual project.
A special workflow was required for the integration of the sensor data and metadata.
This workflow is based on the Geographic Mark-up Language (GML) for the exchange of
sensor information and an extended WMS server, namely the QGIS mapserver (QGIS
mapserver, 2010). QGIS mapserver is an open source Web Map Services 1.3
implementation but in addition it implements advanced cartographic features such as
diagrams, patterns and custom symbols offered through an extended service interface
(Iosifescu et al., 2010). As illustrated in Fig. 3, the extended service interface of the QGIS
mapserver is used to transform the research data (in PostgreSQL) and the sensor data (in
GSN) into a map that is ready to be displayed on demand over the Web.
GML (Geography Markup Language) is an XML-based geospatial standard developed
by the Open Geospatial Consortium (OGC) which is widely accepted for spatial data
exchange. GML contains a rich set of primitives such as feature or geometries, which are
used to build application specific schemas or application languages in our case for sensor
data. Since GSN allows the straightforward integration of new code, a GML output
interface for point geometries was developed. This GML output interface is used by GSN to
convert automatically the sensor data from the internal structure into GML when requested.
QGIS mapserver complements the use of ESRI ArcGIS Server by enabling the on demand
generation of maps from the real-time sensor data provided in GML format.
I. Iosifescu, L. Hurni / GIS PLATFORM FOR INTERDISCIPLINARY ... 58
Fig. 3 Sensor data visualization workflow within COGEAR and SwissExperiment projects