Yojiro Utsunomiya
Here, geographical information such as vegetation, water
use (seaweedsites, boundaries of fishing rights, fishermen's
cooperatives) and land use, accessibility to the shoreline,
topography and geology, and digital elevation modek etc.
are displayed. This is a retrieval function for processing and
displaying geographical information recorded in the
database, and this basic function is equivalent to that
installed in a wide spread application of GIS in the world.
Here, it becomes important how much information is
accumulated in the database.
(2) Oil drift prediction
Prediction of onshore drifting of oil spilk using satellite
images is done by a. stand-alone working system on the
server side. In this system geographical correction is first
carried out, then oil-spill areas are identified and extracted
from the satellite/ airborne remote sensing images using the
Isodata method and parameters such as NDVI. Though the
algorithm of Isodata method is not. explained, it seems to be
a kind of cluster analysis. The oil spills and shoreline of land
are geographically correlated on a same layer using the
polygon- shapefile converted from oil spills area (raster
data). The algorithm in this estimation model is developed
on the basis of vector analysis using only four parameters:
wind direction and
speed, and tidal current direction and speed. A few
parameters such as the rate of expansion of the oil area, and
modulation between these different parameters of wind and
tide are also applied. Hgure 4 shows an example of the
analyzed result.
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Fig, 4 Prediction results for oil drifting ashore
(3) Volunteeractivity support system
In the volunteer activity support system, there are three
functions: (a) Registration of the name and location of
headquarters and broadcasting of their opening and
operation on the Internet GIS. (b) Registration of the name
and attributes of the volunteers at the headquarters. (c) The
local system on the server side provides a function for
analyzing the volunteers’ attributes, and these analyzed
results are placed on the Web. Detailed information can be
obtained by additional functions such as links to home
pages set up by the volunteer headquarters.
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Hg. 5 Location of volunteer headquarters and display
of bar-graph for the volunteer activity support system
Figure 5 shows an example of the above-mentioned
function (a) in the volunteer activity support system. The
number active personnel and the necessary personnel at
each volunteer headquarters are displayed in these bar
graphs at the locations of the headquarters mapped on the
computer display. In addition, information such as position,
attributes of the headquarters and volunteer’s equipments is
input and can be displayed in the other windows. Staff at the
headquarters can easily and freely modify this information
using their browser in the office or using a portable
computer in the field.
4) System for retrieving information about
equipment and methods for oil deaning
In this information retrieval system some
recommendations for the most suitable equipment and
methods for oil. removal from the sea and coastline and
environmental recovery are made available upon input of
geographic conditiors in the field. This retrieval system is
fundamentally similar to the function of subsystem (1) in
our GIS. Figure 6 shows examples of the input and output
of the retrieval system. . Many parameters are fed into the
small rectangular frames on the display (left). Then the
recommendatiors are listed on the screen. Figure 6 (right)
338 International Archives of Photogrammetry and Remote Sensing. Vol. XXXIII, Part B1. Amsterdam 2000.
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