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===== Classes ===== | ===== Classes ===== | ||
- | ^Ref ^ Topic ^Models ^ Exercise | | + | ^Ref ^ Topic ^Exercises ^ Data | |
|1 |Introduction| | | | |1 |Introduction| | | | ||
| |{{:spatdb_lect1.pdf|}} | | | | | |{{:spatdb_lect1.pdf|}} | | | | ||
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| |{{:spatdb_lect2.pdf|}} | | | | | |{{:spatdb_lect2.pdf|}} | | | | ||
|3 |The Relational Database Model 2| | | | |3 |The Relational Database Model 2| | | | ||
+ | | |{{:spatdb_lect3.pdf|}} | {{:assignment_1.pdf|}}| | | ||
+ | |4 |The Relational Database Model 2 + Intro PostgreSQL| | | | ||
+ | | |{{:spatdb_lect4.pdf|}} | | [[http://files.opengeo.org/workshopmaterials/postgis-workshop-201401.zip|Data for postgis practice]]| | ||
+ | |5 |Interacting with Relational Databases | | | | ||
+ | | |{{:spatdb_lect5.pdf|}} |{{:assignment_2.pdf|}} | | | ||
+ | |6 | | | | | ||
+ | | | {{::spatdb_lect6.pdf|}}| | | | ||
+ | |7 | | | | | ||
+ | | | {{:spatdb_lect7-8.pdf|}}| {{::assignment_3.pdf|}}| {{::pgroutingdataprep.zip|}}| | ||
+ | |8 | | | | | ||
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+ | | | {{:spatdb_lect10.pdf|}}| | | | ||
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- | ===== Papers for Final Projects ===== | ||
- | |||
- | The final project consists of an implementation and discussion of an ABM model. Each of the references below contains a description of a model. | ||
- | | | {{http://www.dpi.inpe.br/gilberto/cursos/st-society-2014/gas_book_chap3.pdf|Sex, Culture and Conflict in SugarScape}}. From J Epstein, R. Axtell, Growing Artificial Societies: Social Science from the Bottom Up. MIT Press, 1996.| | ||
- | | | {{http://www.dpi.inpe.br/gilberto/cursos/st-society-2014/gas_book_chap4.pdf|Trade in SugarScape}}. From J Epstein, R. Axtell, Growing Artificial Societies: Social Science from the Bottom Up. MIT Press, 1996.| | ||
- | | | {{http://www.openabm.org/model/3163/version/2/view|S Bergin (2012). Torsten Hägerstrand’s Spatial Innovation Diffusion Model. Available in CoMSES Computational Model Library.}}| | ||
- | | | {{http://jasss.soc.surrey.ac.uk/16/4/11.html|S Heckbert (2014). MayaSim: An agent-based model of the ancient Maya social-ecological system.}}{{http://www.openabm.org/model/3063/version/4/view| Available in CoMSES Computational Model Library.}}| | ||
- | | |{{http://www.openabm.org/model/3705/version/2/view| R Axelrod (1997). “The dissemination of culture - A model with local convergence and global polarization.” Journal of Conflict Resolution 41: 203-226.Replicated in CoMSES Computational Model Library.}}| | ||
- | | | {{http://www.openabm.org/model/3377/version/1/view|J Pepper and B Smuts (2000). The evolution of cooperation in an ecological context: an agent-based model. Replicated in CoMSES Computational Model Library.}}| | ||
- | | | {{http://www.openabm.org/model/3890/version/2/view|K Kahn (2014) A model of the Spanish Flu Pandemic. Available in CoMSES Computational Model Library.}}| | ||
- | | | {{http://www.openabm.org/model/3051/version/1/view|Schindler J (2012) A simple Multi-Agent System of the Tragedy Of the Commons. Available in CoMSES Computational Model Library.}}| | ||
- | | | {{http://www.openabm.org/model/2762/version/1/view| A K Knittel, R Riolo and R Snow (2011). Development and evaluation of an agent-based model of sexual partnership. Adaptive Behavior (available at CoMSES Computational Model Library.}}|. | ||
- | | | {{http://www.openabm.org/model/2274/version/2/view| M Janssen and N.D. Rollins (2012). Evolution of cooperation in asymmetric commons dilemmas. Journal of Economic Behavior and Organization, 81: 220-229. Available in CoMSES Computational Model Library).}}| | ||
- | | | {{http://www.openabm.org/model/2222/version/2/view|Axtell, Epstein, et al. (2002) Population Growth and Collapse in a Multi-Agent Model of the Kayenta Anasazi in Long House Valley. PNAS 99(3): 7275-7279. Replicated in M Janssen and available in CoMSES Computational Model Library.}}| | ||
- | | | {{http://www.dpi.inpe.br/gilberto/cursos/st-society-2014/Bandini2007.pdf|S Bandini, F Celada, S Manzoni, G Vizzari (2007). Modelling the immune system: the case of situated cellular agents, Natural Computing, 6(1):19-32.}}| | ||
- | | | {{http://www.dpi.inpe.br/gilberto/cursos/st-society-2014/Balzter1998.pdf|H. Balzter, P. W. Braun, W. Köhler (1998) Cellular automata models for vegetation dynamics. Ecological Modelling 107(2-3):113-125}}| | ||
- | | | {{http://www.dpi.inpe.br/gilberto/cursos/st-society-2014/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/st-society-2014/Yassemi2008.pdf|S. Yassemi, S. Dragićevića, M. Schmidt(2008), Design and implementation of an integrated GIS-based cellular automata model to characterize forest fire behaviour, Ecological Modelling, 210(1–2), 71–84}}| | ||
- | | | {{http://www.dpi.inpe.br/gilberto/cursos/st-society-2014/Sirakoulis2000.pdf|G.Ch Sirakoulis, I. Karafyllidis, A. Thanailakis (2000) A cellular automaton model for the effects of population movement and vaccination on epidemic propagation. Ecological Modelling 133(3): 209–223}}| | ||
- | | | {{http://www.dpi.inpe.br/gilberto/cursos/st-society-2014/White2007.pdf|S. Hoya White, A. Martín del Rey, G. Rodríguez Sánchez(2007), Modeling epidemics using cellular automata. Applied Mathematics and Computation, 186(1):193-202}}| | ||
- | | | {{http://www.dpi.inpe.br/gilberto/cursos/st-society-2014/Beauchemin2005.pdf|C. Beauchemin, J. Samuel, J. Tuszynskia (2005) A simple cellular automaton model for influenza A viral infections. Journal of Theoretical Biology 232(2) 223–234}}| | ||
- | | | {{http://www.plosntds.org/article/info%3Adoi%2F10.1371%2Fjournal.pntd.0000942|Medeiros, L. C., Castilho, C. A. R., Braga, C., de Souza, W. V., Regis, L., Monteiro, A. M. V. (2011). Modeling the dynamic transmission of dengue fever: investigating disease persistence. PLOS neglected tropical diseases, 5(1), e942.}}| | ||
- | | | {{http://www.hks.harvard.edu/netgov/files/fellows/onnela_j/papers/A7.pdf| R. Toivonen, J. Onnela, J. Saramaki, J. Hyvonen, K. Kaski (2006) A model for social networks. Physica A: Statistical Mechanics and its Applications 371(2):851–860}}| | ||
- | | | {{http://www.scs-europe.net/conf/ecms2011/ecms2011%20accepted%20papers/ibs_ECMS_0044.pdf| Sławomir Nikiel (2012) Game logic simulation based on Cellular automata and flocking techniques}}| | ||
- | | | {{http://www.dpi.inpe.br/gilberto/cursos/st-society-2014/Feitosa2012.pdf| F. Feitosa, A.M. Monteiro, Urban Conventions and Residential Location Choice. CAMUSS Conference (Cellular Automata Modeling forUrban and Spatial Systems 2012)}}| |