Self-Organized Criticality and Macro-Characteristics of Forest Fire System

doi:10.7523/j.issn.2095-6134.2003.2.014

›› 2003, Vol. 20 ›› Issue (2): 205-211.DOI: 10.7523/j.issn.2095-6134.2003.2.014

Previous Articles Next Articles

Self-Organized Criticality and Macro-Characteristics of Forest Fire System

Song Weiguo^1,3, Wang Binghong¹, Shu Lifu², Zhao Lincheng³

1. State Key Laboratory of Fire Science, University of Science and Technology of China, Hefei 230026, China;
2. Research Institute of Forest Ecology, Environment and Protection, Chinese Academy of Forestry, Beijing 100091, China;
3. Department of Statistics and Finance, University of Science and Technology of China, Hefei 230026, China

Received:2002-04-16 Revised:2002-09-19 Online:2003-03-10

Abstract

Abstract:

The macro-characteristics, the self-organized criticality (SOC) in particular, is useful at fire protection. The paper reviews the study on SOC of authors, including: (1) SOC analysis of forest fire data between the period 1950～1989 in China.(2)construction of a generalized forest-fire model combining environmental conditions, tree species and efforts of human beings.(3)the finite-size effects of forest-fire model. The practical implications of these studies are also analyzed.

Key words: self-organized criticaligy, cellular automata, forest-fire model, finite-size effects

CLC Number:

S762.3

Song Weiguo, Wang Binghong, Shu Lifu, Zhao Lincheng. Self-Organized Criticality and Macro-Characteristics of Forest Fire System[J]. , 2003, 20(2): 205-211.

References

[1] Bak P, Tang C, Wiesenfeld K. Self-organized Criticality: An Explanation of 1/f Noise. Phys Rev Lett, 1987, 59: 381~384

[2] Bak P, Tang C, Wiesenfeld K. Self-organized criticality. Phys Rev A, 1988, 38: 364~374

[3] Bak P, Tang C. A forest-fire model and some thoughts on turbulence. Phys Lett A,1990, 147: 297~300

[4] Carson M, Langer J S. Mechanical model of an earthquake fault. Phys Rev A, 1989, 40:6470~6484

[5] Drossel B, Schwabl F. Self-organized Critical Forest-fire Model. Phys Rev Lett, 1992, 69(11):1629~1632

[6] Drossel B, Schwabl F. Forest-fire model with immune trees. Physica A, 1993, 199(2): 183~197

[7] Albano E V. Spreading analysis and finite-size scaling study of the critical behavior of a forest fire model with immune trees. Physica A, 1995, 216: 213~226

[8] Malamud B D, Morein G, Turcotte D L. Forest Fires: An Example of Self-organized Critical Behavior. Science, 1998, 281:1840~1841

[9] Johansen A. Spatio-temporal self-organization in a model of disease spreading. Physica D, 1994, 78:186~193

[10] Rhodes C J, Anderson R M. Power laws governing epidemics in isolated populations. Nature, 1996, 381(6583): 600~602

[11] Turcotte D L. Self-organized criticality. Rep Prog Phys, 1999,62: 1377~1429

[12] Schenk K, Drossel B, Clar S, Schwabl F. Finite-size effects in the self-organized critical forest-fire model. J Eur Phys, 2000, 15: 177~185

[13] 宋卫国,范维澄,汪秉宏. 中国森林火灾的自组织临界性研究.科学通报,2001, 46 (6):521~525

[14] 宋卫国,范维澄,汪秉宏.有限尺度效应对森林火灾模型自组织临界性的影响.科学通报,2001, 46(21):1841~1845

[15] Song W, Fan W, Wang B. Self-organized Criticality of Forest Firein China. Ecological Modeling,2001, 145(1):61~68

[16] Clar S, Drossel B, Schwabl F. Scaling laws and simulation results for the self-organized critical forest-fire model. Phys Rev E, 1994, 50: 1009~1018

Self-Organized Criticality and Macro-Characteristics of Forest Fire System

PDF (PC)

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 2

Recommended Articles

Metrics

Comments

[1]	JIANG Rui, WU Qing-Song. Study on the Complex Dynamic Properties of Traffic Flow from the Micro and Macro Modelling [J]. Journal of University of Chinese Academy of Sciences, 2006, 23(6): 848-854.
[2]	Zhang Xian-feng. Cellular Automaton Based Urban Growth Dynamics Modelling and Prediction [J]. , 2000, 17(1): 70-79.