The Development of Forest Fire Forecasting System
using Internet GIS and Satellite Remote Sensing
Myung-Hee Jo* Myung-Bo Lee**, Si-Young Lee**, Yun-Won, Jo* Seong-Ryul Baek*
*Department of Geodetic Engineering, Kyungil University
33 Buho-ri, Hayang-up. Kyungsan-si, Kyungsan bukdo,
712-701, Korea
Tel)+82-53-850-7312, Fax)+82-53-854-1272
E-mail: mhjo@bear.kyungil.ac.kr,
gerry@w3.ko, fosco@hanmail.net
** Div. Forest Environment, Korea Forest Research Institute,
Tel)+82-2-9612-744
Fax)+82-2-9612-543,
E-mail: leemb@foa.go.kr, LSY925@chollian.net
Keywords : Satellite Image, Forest Fire Hazard Index, Internet GIS
Abstract
The purpose of this study is to develop the most effective method for a forest fire forecasting in small mountain through GIS and Remote Sensing. The study area was Young-chon area including all of the Kyung-sang Province, Korea. GIS DB was constructed based on factors of geographical and natural features those are necessary factors to forecast a forest fire. It was clarified that satellite image and some spatial data is very effective for developing the Graphic User Interface to forecast the forest fire using Internet GIS. In addition, the forest fire hazard area was prevented and managed effectively.
Introduction
Recently the human lives, fortune and the ecosystem have been deadly threatened by the many cases of forest fire and it's huge size. Even though there is trip of extinguish equipment, the main reason of this large sized forest fire is that there is limitation of traditional method and no more scientific way to predict these disasters.
In this paper, we present that the fatal damage by forest fire could be reduced if there are suitable predictions and rapid provision against forest fire using Internet GIS. This Internet GIS modeling is the most perfect way for forest fire forecasting system because forest fire has a movement in both in spatial and temporal.
CFFDRS(Canadian Forest Fire Danger Ration System) was developed for a prediction of forest fire in 1987 and GIMS(Geographical Information and Modeling System) was installed for a management of it by Kessell(1990). GIMS could assign a part by telling the shape of forest fire in real time and help the managers of forest fire have best decision against these disasters. In 1993 Gracia and Lee prepared a map for forest fire forecasting in Alberta after evaluating the main danger factors of forest fire.
In Korea, Y.H Cheong(1989) studied about predicting the dangerous rate of oxidation and S.Y Lee(1990) found out the relationship between the factor of environment and temperature of forest fire . K.C Lee(1998) constructed the modeling of suitability analysis about forest fire extinguish water tank using GIS .
The study purposes of this paper are as follows that the investigation into actual condition of forest fire in Young-chon area was first carried out and secondly constructed in to GIS DB. Danger index of forest fire was computed with the based on topographic and meteorological factor in this area and evaluated the relationship between these factors and forest fire. Finally, the network presentation system of that using Internet GIS, which is the main goal of this paper, was installed.
Review on Physical Factors of Forest Fire in Study Area
In the view of season, the number of forest fire increase in the spring and the winter because it is very dry and small amount of precipitation. 3,362 cases took places between 1990~1999 and the damaged area was 13991.43ha. Among them 2,069 cases happened between March and April and 883 cases occured in the winter. The main reasons of forest fire in this area have been composed of accidental fire(44%), ditch burn up(22%), visit tomb accident fire(7%), playing with fire(5%), etc(23%). 49% cases of them took places around 2 p . m ~ 6 p . m, 38% took places 11 a . m ~1 p . m, 9% took places 7 p . m ~ 4 a . m, 4% took places 5 a . m ~ 10 p . m in order.
In study area, 84.2% cases of forest fire happened from March. 21 to April 10.
The potential factors including aspect, elevation, slope, stream, vegetation, which can have an effect on forest fire were extracted for probability analysis.
Aspect is related to the amount of sunshine. In general, the cases of forest fire occur in area of south more than in the area of north because a southern exposure has higher burning point.
Actually, more than 40% of forest fire happened in aspect of south area while it doesn't happen in the other area. Therefore, the aspect is really related to forest fire. Comparing with previous forest fire, more than 90% cases of forest fire happened at 100m above the sea level. Most these disasters take places in lower area above the sea level. 65 % cases in entire forest fire occurred in between a slope of zero and a slope of twenty degrees. The rate of forest fire decrease remarkably as slope increases.
Stream is regarded as an important role not only to extinguish forest fire but also to provide moisture toward plants. The area far from stream has higher dangerous factors. Especially, the road can be immediate factor to forest fire because there are human beings.
Fuel, which is composed of the amount of precipitation, the humidity of air, the direction of the wind and temperature, is very related to season, and time.
In study area, the air is exceedingly dry in the winter and much precipitation is in the summer. Also, its north, west, east is consisted in a mountainous area, which is over 900 meters above the sea level. There are open field in its south area and cultivated fruit.
The Kum-ho river, which is joined with Nam-chun(Jaho-chun, Gokung-chun) and Buk-chun(Sinryung-chun, Gohyun-chon), is flowed in the middle of this study area. The size of this is 919 and 69% in this area is forests and crop fields and 18% is cultivated area.
In 1999 the number of a broad-leaved tree was twice than the number of a needle-leaf tree while the number of both was same. By analyzing Landsat TM satellite image data, the classes of trees are consist of 55% of Coniferous, 30% of Deciduous, 15% of Mixture forest.
Figure 1. The location of study area
