| Ambos lados da revisão anteriorRevisão anteriorPróxima revisão | Revisão anterior |
| trabalhos-ca [2019/04/25 14:40] – pedro | trabalhos-ca [2019/05/09 18:12] (atual) – pedro |
|---|
| ====== Lista de Artigos Autômatos Celular ====== | ====== Lista de Artigos Autômatos Celular ====== |
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| | |Aurelienne Jorge, Carlos Guimarães|Periodic forcing in a three-level cellular automata model for a vector-transmitted disease| |
| | |Wagner Billa|Modelling of incident sound wave propagation around sound barriers using cellular automata| |
| | |Leoni Silva e Camila Sales|Bowness, R., Chaplain, M.A., Powathil, G.G. and Gillespie, S.H., 2018. Modelling the effects of bacterial cell state and spatial location on tuberculosis treatment: Insights from a hybrid multiscale cellular automaton model. Journal of theoretical biology, 446, pp.87-100.| |
| | |Luiz Assis, Cintia Pereira| White, S. Hoya, A. Martín Del Rey, and G. Rodríguez Sánchez. "Modeling epidemics using cellular automata." Applied Mathematics and Computation 186, no. 1 (2007): 193-202. | |
| | | {{http://www.dpi.inpe.br/gilberto/cursos/papers/Berjak2002.pdf|S. G. Berjak, J. W. Hearne (2002) An improved cellular automaton model for simulating fire in a spatially heterogeneous Savanna system. Ecological Modelling 148(2):133–15}}| | | | {{http://www.dpi.inpe.br/gilberto/cursos/papers/Berjak2002.pdf|S. G. Berjak, J. W. Hearne (2002) An improved cellular automaton model for simulating fire in a spatially heterogeneous Savanna system. Ecological Modelling 148(2):133–15}}| |
| | | {{http://www.dpi.inpe.br/gilberto/cursos/papers/Almeida2011.pdf|Almeida, Rodolfo Maduro, and Elbert EN Macau. "Stochastic cellular automata model for wildland fire spread dynamics." Journal of Physics: Conference Series. Vol. 285. No. 1. IOP Publishing, 2011.}}| | | | {{http://www.dpi.inpe.br/gilberto/cursos/papers/Almeida2011.pdf|Almeida, Rodolfo Maduro, and Elbert EN Macau. "Stochastic cellular automata model for wildland fire spread dynamics." Journal of Physics: Conference Series. Vol. 285. No. 1. IOP Publishing, 2011.}}| |
| | | [[ http://www.academia.edu/download/30249270/m283xl03.pdf| Karafyllidis, I. and Thanailakis, A., 1997. A model for predicting forest fire spreading using cellular automata. Ecological Modelling, 99(1), pp.87-97.]]| | | | [[ http://www.academia.edu/download/30249270/m283xl03.pdf| Karafyllidis, I. and Thanailakis, A., 1997. A model for predicting forest fire spreading using cellular automata. Ecological Modelling, 99(1), pp.87-97.]]| |
| | | [[ http://search.proquest.com/openview/6fc409331fb6e6f5a21e4fc783349e7c/1.pdf?pq-origsite=gscholar&cbl=1456339| Ermentrout, G.B. and Edelstein-Keshet, L., 1993. Cellular automata approaches to biological modeling. Journal of theoretical Biology, 160(1), pp.97-133.]]| | | | [[ http://search.proquest.com/openview/6fc409331fb6e6f5a21e4fc783349e7c/1.pdf?pq-origsite=gscholar&cbl=1456339| Ermentrout, G.B. and Edelstein-Keshet, L., 1993. Cellular automata approaches to biological modeling. Journal of theoretical Biology, 160(1), pp.97-133.]]| |
| | | [[ https://www.sciencedirect.com/science/article/pii/S0022519303002443| Alarcón, T., Byrne, H.M. and Maini, P.K., 2003. A cellular automaton model for tumour growth in inhomogeneous environment. Journal of theoretical biology, 225(2), pp.257-274.]]| | |
| | | [[https://www.sciencedirect.com/science/article/pii/S0378437107006085 | Yuan, W. and Tan, K.H., 2007. An evacuation model using cellular automata. Physica A: Statistical Mechanics and its Applications, 384(2), pp.549-566.]]| | | | [[https://www.sciencedirect.com/science/article/pii/S0378437107006085 | Yuan, W. and Tan, K.H., 2007. An evacuation model using cellular automata. Physica A: Statistical Mechanics and its Applications, 384(2), pp.549-566.]]| |
| | | [[ http://www.bioinfo.de/isb/2002020035/main.html | Dormann, S. and Deutsch, A., 2002. Modeling of self-organized avascular tumor growth with a hybrid cellular automaton. In silico biology, 2(3), pp.393-406.]]| | | | [[ http://www.bioinfo.de/isb/2002020035/main.html | Dormann, S. and Deutsch, A., 2002. Modeling of self-organized avascular tumor growth with a hybrid cellular automaton. In silico biology, 2(3), pp.393-406.]]| |
