Yojiro Utsunomiya
Construction of an Internet Geographical Information System for usein clearing offshore and
onshore oil spills
Yojiro UISUNOMIYA*, Muneo YOSHIE**, Hideo MIURA ***Hiedeki SHIMAMURA *** Tomohito TSUCHIYA ***
Water and Soil Environment Div. , National Institute for Environmental Studies, Japan.
utunomiy @nies.go.jp,
** Port and Harbour Research Institute, Japan
yoshie cc.phri.go.jp
***Pasco com, Japan
HYPERLINKmiura@pascokankyo.co.jp
Hideki Shimamura G sed.pasco.co.jp
HYPERLINKtsuchiya 0 pascokankyo.co.jp
Keywords: Intemet GIS, oil spil5, disaster countermeasure
ABSTRACT
Oil spilt from the Russian tanker Nakhodka, which sank in the Sea of Japan, contaminated the coast of central and
northwestern Japan. Organizations and many volunteers worked to remove oil and grease that floated and adhered to
sand grains, shingle/pebbles and rocks in the coastal zones. During the clean-up operation, it became apparent that in
some places there was an overconcentration of volunteers, administrative delays in implementing the oil removal,
misleading results of irrelevant simulation modeling, and insufficient communication of information about oil drifting.
We therefore constructed a Geographical Information System (GIS) in order to improve the above-mentioned
circumstances and the efficient clearing of oil from the coast.
1. INTRODUCTION
The oil spill from the Russian tanker Nakhodka, which sank
in the Japan Sea, 106 km north-northeast of Tsushima
Island on 2 January 1997, caused severe damage to the sea
and coastline of the Japanese Islands. To counteract any
repetition of such a man-made disaster, the National Land
Agency promoted a special project entitled ‘Investigation
for the construction of a database of environmental and
disaster information for use in oil spill disasters" in. fiscal
year 1998-90, As part of this project, we constructed a
Geographical Information System (GIS) for effective
management of oil spilk in the sea and along coastlines.
Here we outline the system which is now in test operation
in our laboratory.
2STRUCTURE OF GIS FORMANAGEMENT
OF OIL SPILLS
2.1 Subsystem of GIS
Our system for the efficient and effective cleaning of spilt oil
fromsea and coastal zones consists of several subsysterrs
and functions. It has two components; one is accessible to
the public, and the other is a closed system for specialists
such as network/intemet GIS administrators on the server
side and in govemmental offices. However, sharp
discrimination between these components is not applied
because our system is still at the prototype stage.
(1) Display of information about natural resources
and industrial activity.
(2) System for prediction of spilt oil drifting ashore
using satellite information and surveillance data.
(3) Support system for volunteer activity in cleaning
the sea and coastal zones.
(4) System for retrieving information about
equipment and materials for cleaning spilt oil
(5) Internet GIS
22, Operational environment
The operational environment and application software of
our Internet GIS are as follows.
a) Hardware: Gateway 2000 G7-450JP CPU:
Pentium II 450MHz Memory: 128 MB
b) OS: Windows NT4.0 Workstation SP4 Peer Web
Server 3.0
c) Software: Arc View 3.0a, Spatial Analyst 1.0a,
Internet Map Server 1.0A, Image Analysis 1.0
As listed above, this systemis constructed using software
such as Windows edition ArcView3, Arc View Internet
Map Server, Spatial Analyst (ESRI Co), and Image
Analysis (ERDAS Co). The basic data formats in our
336 International Archives of Photogrammetry and Remote Sensing. Vol. XXXIII, Part B1. Amsterdam 2000.
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