ISPRS, Vol.34, Part 2W2, “Dynamic and Multi-Dimensional GIS”, Bangkok, May 23-25, 2001
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contaminants risk can be mapped in Arclnfo coverages. Each
converage is linked to an attribute table so that information is
available on the individual features, or records, of the theme.
Maps can be created to convey geographic features and
relationships along with the results of a data analysis. Besides
data-mapping advantage, GIS also has the ability to query
specific information in a theme and dynamically link external
database.
The general GIS-supported framework is showed in Fig. 4.
GIS USEJUNTERFACE
3.1 The Digital Base Design
It consists of two major components: a spatial database and a
tabular database. The spatial database contains the GIS shape
files and coverages of geographic features related to regional
and facility information. These features are topologically
referenced to the real world. The regional information required
by spatial database can be obtained from various source, it’s
always a time consuming and tedious search work. Most of
these sources contain Arclnfo coverages in export format
(*.e00), which can be imported into ArcView using build-in
lmport71 command.
Obstacles exist when big-scale coverages are not available
from Internet sources, federal or local department. Fortunately,
options available for building a facility database. One method is
first through aerial mapping to produce orthophotos, and then
digitize features from the orthophotos. It is accurate but very
expensive. Digitizing the facility features using existing maps or
photographs is the alternative that is easy-taken and was
employed in the research process. Through accessing to a
digitizing tablet, layering coverage can be accomplished
directly with the Digitizer extension in ArcView (Fig. 5).
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Tabular database contains information about environmental
measurements at the site, such as contaminants concentration
data, groundwater levels, sampling position, soil profiles and
so on. An efficient form of organizing data is through the use of
a relational database. The database is stored in one file, but
this file can contain multiple tables, all of which relate to the
particular subject but contain different data related to that
subject. However, the current capabilities of ArcView do not
provide an efficient way to link multiple tables since each
feature can have only one associated record. Under such
circumstance, Microsoft Access was used to create the
relational database. Interrelationship within tables was
established to link each other, which could be used to execute
query function to create new relationships (Fig. 6).
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3.2 Customized Graphic User Interface
ArcView’s Advanced Customized Graphic User Interface
operation allows the user to create self-demand user interface
with more flexible and realizable function. Through executing
easy event-driven Avenue script “System.Execute”, the
groundwater transport model simulator BIOF&T could be called
externally by ArcView. The results from BIOF&T simulator can
be compiled and saved as Text Delimited Format, which can
be sequently imported to MS Excel to proceed the risk analysis
using proposed environmental risk assessment methodology.
3.3 Connecting Spatial and Tabular Database and
Spreadsheet
The predicted concentration data resulting from the
groundwater simulator and sampling data were imported to
Excel spreadsheet to process the calculation step of
environmental risk analysis. When the calculation was done,
the risk results were connected with MS Access through the
“Get External Data” function. Advanced ArcView Database
dynamically link function allows the user to import selected
sets of data from another database utility into GIS using an
Open Database Connectivity (OBDC) driver and build-in data
management system which use Structured Query Language
(SQL). The imported data can then be joined to an existing
coverage or used to create a new coverage with Avenue
scripts or Add Event Theme command in ArcView.
The Spatial Analyst extension of ArcView was used to
interpolate grid surface and contours between point
measurements. For each figure, the contours of risk level for
individual risk and overall risk level were created using Inverse
Distance Weighting (IDW) interpolation scheme, which
interpolates a values for each point in the study area using the
inverse distance squared between the location of the current
point and the measurement location as a weighting parameter
(Fig. 7).
