deriving parameters or inputs of the model, such as inter-zone distance, node
table for traffic zones, shortest distance between two nodes, road segment
length, road linear length, road network length, non linear coefficient, and
the connectivity matrix between nodes. Some of the intermediate or final
analysis results are also sent back to the GIS database. The proposed road
network and its relevent parameters are also evaluated and adjusted.
2). Urban construction site analysis model
Another motivation for coupling spatial analytical models with GIS comes from
GIS-based site selection of urban construction projects. In order to process
construction permit applications, the planning staff needs the basic
information (property, planned landuse, building density, infrastructure
provision capacity, etc.,) which can be done by mapping the desired project
boundaries and overlaying it with other coverage in GIS. In many cases, a
suitable construction site should also meet with some other location
objectives, such as minimizing the maximum distance between facilities and users
(ninmax model), maxmizing the coverage of the. located facilities (naxcoverage
model).
Therefore, the minsum, minmax and maxcoverage models of facility location were
coupled with GIS to design an urban GIS's construction site analysis model. As
showed in Fig.2, the spatial entities to be analyzed by the facility location
models are mapped into spatial objects in GIS, such as the landuse, planned
landuse, road network, point facilities, etc. Instead of determing the site
location by pure mathematic calculation, a set of GIS's map-based analysis and
queries are performed to identify m candidate areas. Then the minmum, minmax
and maxcoverage models of facility location may be used to selecting thr most
suitable site location from the m candidate areas via analytic analysis.
3).Urban terrain landscape analysis model
While there are many spatial analysis issues which can benefit from the
coupling of spatial analytical models in some problem domains or some
application areas. Specific spatial analysis models should be formulated by
modeling the ‘physically-based spatial process or the human spatial process or
the human spatial cognitive process. For instance, the terrain landscape. is the
perceived figure of physical space. During the process of urban or tourist
landscape analysis is a fundamental but very complicated work. In the request
of the analysis is a fundamental but very complicated work. In the request of
the local urban planners, a terrain landscape analysis model was formulated and
programmed by combining domain specific knowledge of landscape planning process
with map-based visibility analysis. As showed in Fig.3, the analysis model
consists of visual field analysis from single and multiple view
point (s), hierarchical visual field analysis, front-view analysis and visual
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International Archives of Photogrammetry and Remote Sensing. Vol. XXXI, Part B4. Vienna 1996
