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International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XXXV, Part B2. Istanbul 2004 
5.] Spatial Decision Support Systems 
Decision Support Systems (DSS) and Spatial Decision Support 
Systems (SDSS) can be defined as interactive, computer-based 
tools that use information and models to improve the decision- 
making process (Feeney et al, 2002). These systems have 
intuitive interactive interfaces, the ability to combine analytical 
models with data, the capability to explore alternative solutions, 
the support of a variety of decision making styles, and the 
ability for interactive and recursive problem solving (Densham, 
1991). Decision support systems used to address complex 
issues such as sustainable development require a combination 
of structured (programmable) and unstructured (based on 
human decision) problem solving techniques. In a DSS, 
decision alternatives may be evaluated on the basis of multiple 
criteria (Malczewski, 1997). Decision-making stakeholders and 
technical specialists may range from novice to expert. 
Participatory decision support systems that facilitate 
collaborative decision-making result in more effective and 
equitable decisions (Jankowski and Nyerges, 2001). 
The following sections will provide an example of a component 
in an evolving Decision Support System. The component is 
called the Georgia Basin Digital Library (GBDL) and it is an 
integral part of by the PATHWAYS decision support 
framework. GBDL was developed to facilitate decision making 
for sustainable development of Georgia Basin region of 
southwestern British Columbia Canada 
[http://www.georgiabasin.info]. 
5.2 Georgia Basin Digital Library 
GBDL is primarily aimed at members of the local community 
within the Georgia Basin, as well as experts interested in issues 
of sustainable development (Talwar, 2003). It is composed of 
the following modules: News & Information, Local Stories, 
Ideas & Perspectives, Library Collections, and Future 
Scenarios. The two GBDL modules that display interactive 
Web maps are the Local Stories and Library Collections 
modules. At present, the SDKI-Vis project is working on the 
evaluation and improvements to the Library Collections 
module. 
The Library Collections module uses Open GIS Consortium 
technologies  [http://www.opengis.org] in a distributed 
environment to permit users to search metadata registries of the 
Canadian Geospatial Data Infrastructure [http://www.cgdi.ca] 
and visualize spatial data hosted by a wide-range of geospatial 
data warehouses. Layers of raster and vector geospatial data can 
be selected and combined for dynamic Web map creation (see 
Figure 5). Rudimentary functionality is available for zooming, 
panning, and modifying the order of layer stacking and 
displaying a locator/overview map. However, users cannot 
modify the selection of symbols and colours as they are based 
on a Style Layer Descriptor (SLD) usually developed by the 
data provider. 
The map-based layer selection module of the GBDL Library 
Collections offers the user many map layers that can be turned 
on and viewed together. This open invitation to explore geo- 
referenced data from many dispersed databases can be a 
meaningful and powerful way to foster visualization. However, 
the invitation for unrestrained browsing can result in 
misrepresentation of information by users not familiar with the 
data integration issues such as working with data at various 
scales and projections. User interaction should be provided 
through a well-structured interface in order for exploration to 
Ua 
Un 
increase curiosity rather than cause frustration. The work 
involving the Georgia Basin Digital Library will propose 
improvements to encourage browsing of the information, and to 
provide greater assurance that a user's explorations will be 
satisfying. The aim is to align the GBDL to the strategy of 
weightless, intuitive operation. 
One example of a map interface from the Library Collections 
module of the GBDL, which the SDKI-Vis team is attempting 
to improve, is shown in Figure 5. While it is beneficial that the 
legend serve as the on/off control for each layer, this legend 
provides only the name of the symbol, while it also needs to 
reflect the symbol as it appears on the map. It would seem 
more useful to move the map navigation controls to the map, 
letting the user push and pull at the map image itself. Other 
icons could be re-ordered to make better use of screen space 
and to create relationships between the devices that control the 
display and the map itself. 
  
    
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Figure 5. The existing Georgia Basin Digital Library interface 
  
   
  
    
   
     
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Figure 6. The proposed redesigned Georgia Basin Digital 
Library interface 
The redesign and implementation of the new interfaces to the 
GBDL is being conducted in cooperation of the SDKI-Vis 
project and PATHWAY S project teams. 
6.0 CONCLUSIONS 
Innovative web-based interactive visualization techniques will 
facilitate access to information, integration of multi-source 
data, hypothesis testing and communication of integrated 
knowledge. Visualization tools, in particular user-friendly 
interfaces, can contribute to the increased use of earth sciences