Um Modelo Comportamental Baseado em Árvores de Decisão para Agentes Virtuais em Situações de Emergência
Resumo
Este artigo propõe um modelo comportamental de humanos virtuais baseado em árvores de decisão. O contexto de simulações é focado nas reações de humanos virtuais em situações de emergência. No modelo proposto, os agentes virtuais são dotados de três percepções virtuais: audição, visão e olfato. Além destes sentidos, os agentes possuem a habilidade de comunicar, onde suas percepções são propagadas para outros agentes na multidão. Os dados adquiridos pelos sensores virtuais são utilizados como entradas na árvore de decisão, permitindo que o agente possa coerentemente reagir como uma função de sua percepção.
Referências
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Braun, A., Bodmann, B. E. J., and Musse, S. R. (2005). Simulating virtual crowds in emergency situations. In VRST, pages 244–252, Monterey, CA, USA. ACM Press.
Chenney, S. (2004). Flow tiles. In Proceedings of Symposium on Computer Animation, pages 233–242, Grenoble, Fr. ACM and Eurographics Association.
Conde, T. and Thalmann, D. (2004). An artificial life environment for autonomous virtual agents with multi-sensorial and multi-perceptive features. Journal of Computer Animation and Virtual Worlds, 15(3):311–318.
Cony, C. A., Silva, B. G., Jung, C. R., and Musse, S. R. (2006). Simulação de agentes com capacidade auditiva em situações de emergência. In Digital Proceedings of the V Brazilian Symposium on Computer Games and Digital Entertainment.
Helbing, D., Farkas, I., and Vicsek, T. (2000). Simulating dynamical features of scape panic. Nature, 407(6803):487–490.
Korfhage, R. (1997). Information Retrieval and Storage. John Wiley and Sons, New York.
Kuttruff, H. (2000). Room Acoustics. Spon Press.
Musse, S. R. and Thalmann, D. (1997). A model of human crowd behavior. In Computer Animation and Simulation ’97, pages 39–51, Heidelberg, Germany. Springer-Verlag.
Musse, S. R. and Thalmann, D. (2001). Hierarquical model for real time simulation of virtual human crowds. IEEE Transactions on Visualization and Computer Graphics, 7:152–164.
Nicolas, E. G. and Drettakis, G. (2004). Perceptual audio rendering of complex virtual environments. In Proceedings of SIGGRAPH, pages 249–258. ACM Press.
Pan, X., Han, C. S., Dauber, K., and Law, K. H. (2006). Human and social behavior in computational modeling and analysis of egress. Automation in Construction, 15.
Pelechano, N., O’Brien, K., Silverman, B., and Badler, N. (2005). Crowd simulation incorporating agent psychological models, roles and communication. In V-Crowds.
Reynolds, C. W. (1987). Flocks, herds, schools: a distributed behavioural model. Computer Graphics, 21(4):25–34.
Russell, S. and Norvig, P. (1995). Artificial Intelligence: A Modern Approach. Prentice Hall, Englewood Cliffs, NJ, USA.
Savioja, H. J. L. T. and Vããnãnen, R. (2004). Creating interactive virtual acoustic environments. Journal of the Audio Engineering Society, 47(9):675–705.
Shao, W. and Terzopoulos, D. (2005). Autonomous pedestrians. In Proceedings of Eurographics/ACM SIGGRAPH Symposium on Computer Animation, pages 19–28, Los Angeles, CA, USA.
Tu, X. and Terzopoulos, D. (1994). Perceptual modeling for behavioral animation of fishes. In Proc. Second Pacific Conference on Computer Graphics, pages 185–200.
Witten, I. H. and Frank, E. (2005). Data Mining: Practical machine learning tools and techniques, 2nd Edition. Morgan Kaufmann, San Francisco, CA, USA.
Zellner, D., Bartoli, A., and Eckard, R. (1991). Influence of color on odor identification and liking ratings. In American Journal of Psychology 104(4), 547-561.
Zhang, H. and Wyvill, B. (1997). Behavioural simulation in voxel space. In Computer Animation ’97, pages 119–126, Switzerland.
Braun, A., Bodmann, B. E. J., and Musse, S. R. (2005). Simulating virtual crowds in emergency situations. In VRST, pages 244–252, Monterey, CA, USA. ACM Press.
Chenney, S. (2004). Flow tiles. In Proceedings of Symposium on Computer Animation, pages 233–242, Grenoble, Fr. ACM and Eurographics Association.
Conde, T. and Thalmann, D. (2004). An artificial life environment for autonomous virtual agents with multi-sensorial and multi-perceptive features. Journal of Computer Animation and Virtual Worlds, 15(3):311–318.
Cony, C. A., Silva, B. G., Jung, C. R., and Musse, S. R. (2006). Simulação de agentes com capacidade auditiva em situações de emergência. In Digital Proceedings of the V Brazilian Symposium on Computer Games and Digital Entertainment.
Helbing, D., Farkas, I., and Vicsek, T. (2000). Simulating dynamical features of scape panic. Nature, 407(6803):487–490.
Korfhage, R. (1997). Information Retrieval and Storage. John Wiley and Sons, New York.
Kuttruff, H. (2000). Room Acoustics. Spon Press.
Musse, S. R. and Thalmann, D. (1997). A model of human crowd behavior. In Computer Animation and Simulation ’97, pages 39–51, Heidelberg, Germany. Springer-Verlag.
Musse, S. R. and Thalmann, D. (2001). Hierarquical model for real time simulation of virtual human crowds. IEEE Transactions on Visualization and Computer Graphics, 7:152–164.
Nicolas, E. G. and Drettakis, G. (2004). Perceptual audio rendering of complex virtual environments. In Proceedings of SIGGRAPH, pages 249–258. ACM Press.
Pan, X., Han, C. S., Dauber, K., and Law, K. H. (2006). Human and social behavior in computational modeling and analysis of egress. Automation in Construction, 15.
Pelechano, N., O’Brien, K., Silverman, B., and Badler, N. (2005). Crowd simulation incorporating agent psychological models, roles and communication. In V-Crowds.
Reynolds, C. W. (1987). Flocks, herds, schools: a distributed behavioural model. Computer Graphics, 21(4):25–34.
Russell, S. and Norvig, P. (1995). Artificial Intelligence: A Modern Approach. Prentice Hall, Englewood Cliffs, NJ, USA.
Savioja, H. J. L. T. and Vããnãnen, R. (2004). Creating interactive virtual acoustic environments. Journal of the Audio Engineering Society, 47(9):675–705.
Shao, W. and Terzopoulos, D. (2005). Autonomous pedestrians. In Proceedings of Eurographics/ACM SIGGRAPH Symposium on Computer Animation, pages 19–28, Los Angeles, CA, USA.
Tu, X. and Terzopoulos, D. (1994). Perceptual modeling for behavioral animation of fishes. In Proc. Second Pacific Conference on Computer Graphics, pages 185–200.
Witten, I. H. and Frank, E. (2005). Data Mining: Practical machine learning tools and techniques, 2nd Edition. Morgan Kaufmann, San Francisco, CA, USA.
Zellner, D., Bartoli, A., and Eckard, R. (1991). Influence of color on odor identification and liking ratings. In American Journal of Psychology 104(4), 547-561.
Zhang, H. and Wyvill, B. (1997). Behavioural simulation in voxel space. In Computer Animation ’97, pages 119–126, Switzerland.
Publicado
30/06/2007
Como Citar
CONY, Carlos A.; BICHO, Alessandro de L.; JUNG, Cláudio R.; OSÓRIO, Fernando S.; MUSSE, Soraia R..
Um Modelo Comportamental Baseado em Árvores de Decisão para Agentes Virtuais em Situações de Emergência. In: ENCONTRO NACIONAL DE INTELIGÊNCIA ARTIFICIAL E COMPUTACIONAL (ENIAC), 6. , 2007, Rio de Janeiro/RJ.
Anais [...].
Porto Alegre: Sociedade Brasileira de Computação,
2007
.
p. 1182-1191.
ISSN 2763-9061.
