참고문헌
- 김응식, 이시영, 임효재, 김홍, 송종훈, 김수영. 1998. 유동장 해석을 통한 산불확산예측 프로그램의 개발. 한국임학회지 87(4): 528-534
- 이병두, 정주상, 김형호, 이시영. 2001. GIS 응용에 의한 2000년 삼척 산불의 확산속도 분석. 한국임학회지 90(6) 781-787
- 이병두, 정주상, 이사영. 2002. GIS 응용을 위한 산불확산예측 알고리즘의 개발. 한국임학회지 91(6): 812-819
- 이시영. 1990. 환경인자가 산불의 온도 및 진행속도에 미치는 영향. 동국대학교 석사학위논문. pp. 104
- 이시영, 이봉수, 임주훈 1997 습도측정봉을 이용한 산불 발생위험율 예측. 산림과학논문집 55: 150-157
- 정연하, 이시영, 염육철, 여운흥. 1989. 산화위험율 예측에 관한 연구. 임업연구원 연구보고 38: 117-123
- 정주상, 이병두, 김형호. 2002. GIS 및 판별분석에 의한 삼척산불지역의 소나무임분 피해도 추정. 한국임학회지 91(3): 355-361
- Andrews, P.L. and L.P. Queen. 2001. Fire modeling and information system technology. International Journal of Wildland Fire 2001(10): 343-352
- Anderson, D.H., E.A. Catchpole, N.J. de Mestre and T. Parks. 1982. Modelling the spread of grass fires. Journal Australian Mathematical Society 23: 451-466 https://doi.org/10.1017/S0334270000000394
- Anderson, H.E. 1983. Predicting wind-driven wildland fire size and shape. USDA Forest Service. Research Paper. INT 305
- Ball, G.L. and D.P. Guertin. 1992. Simulation of fire growth. International Journal of Wildland Fire 2: 47-54 https://doi.org/10.1071/WF9920047
- Burgan, R.E. and R.C. Rothermel. 1984. BEHAVE: Fire behavior prediction and fuel modeling system. USDA Forest Service. General Technical Report. INT-167
- Feunekes, U. 1991. Error analysis in fire simulation models. Master degree thesis, University of New Brunswick, Canada
- French, I.A. 1992. Visualization techniques for the computer simulation of bushfires in tow dimensions. Master degree Thesis, University of New South Wales, Australia
- Finney, M.A. 1998. FARSITE: Fire Area Simulator-Model Development and Evaluation. Rocky Mountain Research Station. pp. 47
- Lee, S.Y., J.H. Lim and J.S. Oh. 1999. Analysis of Spread rate and Pattern of Forest Fire in Kosung, Korea. Proceedings of the 3rd International Conference on Long-Term Ecological Research in the East Asia-Pacific Region. 160-167
- Linn, R., J. Winterkamp, and J.J. Colman, 2005. Modeling interactions between fire and atmosphere in discrete element fuel beds. International Journal of Wildland Fire 14: 37-48 https://doi.org/10.1071/WF04043
- Perry, G.L.W. 1998. Current approaches to modelling the spread of wildland fire: a review. Progress in physical Geography 22(2): 222-245
- Richards, G.D. 1990. An elliptical growth model of forest fire fronts and its numerical solution. International Journal Numerical Methods Engineering 30: 1130-1149
- Richards, G.D. 1995. A general mathematical framework for modelling tow-dimensional wildland tire spread. International Journal of Wildland Fire 5(2): 63-72 https://doi.org/10.1071/WF9950063
- Richards, G.D. 2000. The mathematical modelling and computer simulation of wildland fire perimeter growth over a 3-dimensional surface. International Journal of Wildland Fire 9(3): 213-221 https://doi.org/10.1071/WF00019
- Rothermel, R.C. 1972. A mathematical model for prediction fire spread in wildland fuels. Research Paper TNT-115 (Ogden, UT: USDA Forest Service, Intermountain Research Station). pp. 40
- Stephen J.P., L.A. Patricia and D.L. Richard. 1996. Introduction to wildland fire. 2nd ed. John Wiley & Sons. New York, U.S.A. pp. 769
- Stocks, B.J., B.D. Lawson, M.E. Alexander, C.E. Van Wagner, R.S. McAlpine, T.J. Lynham and D.E. Dube. 1989. The Canadian Forest Fire Danger Rating System. The Forestry Chronicle 65(6): 450-457
- Vasconcelos, M.J. and D.P. Guertin. 1992. Simulation of fire growth. International Journal of Wildland Fire 2: 87-96 https://doi.org/10.1071/WF9920087
- von Neumann, J. 1966. Theory of self-reproducing Automata. University of Illinois. Urbana