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--- geopro:pedro:models [2008/02/12 17:57] – 150.163.67.173
+++ geopro:pedro:models [2008/06/20 19:16] (atual) – pedro
@@ Linha 1: / Linha 1: @@
 ====== Agent-Based Models ======
+====An agent-based computational study of wealth distribution in function of resource growth interval using NetLogo====
+|R Damaceanu, 2008| Applied Mathematics and Computation 201:371–377| [[http://www.leg.ufpr.br/~pedro/papers/amc/wealth-distribution-resource-growth.pdf|pdf]]|
+\\
+**Abstract:** We describe an agent-based computational model that simulates the distribution of wealth in three classes: upper, middle and lower. The experimental data show us that: (1) the wealth of economy based on renewable resources is increasing if
+the resource growth interval is decreasing with the condition that the other factors remained unchanged; (2) the wealth of
+an economy based on renewable resources is higher in comparison with the wealth of an economy based on nonrenewable
+resources. This conclusion stresses the fact that the global economy must focus on using renewable resources because this
+approach may increase the global wealth.
+\\
+====Policy analysis from first principles====
+|S Moss, 2002| PNAS 99(3)7267–7274| [[http://www.leg.ufpr.br/~pedro/papers/pnas/policy-analysis-moss.pdf|pdf]]|
+{{  http://www.leg.ufpr.br/~pedro/figures/moss-sales-grid-size.jpg}}
+\\
+**Abstract:** The argument of this paper is predicated on the view that social
+science should start with observation and the specification of a
+problem to be solved. On that basis, the appropriate properties and
+conditions of application of relevant tools of analysis should be
+defined. Evidence is adduced from data for sales volumes and
+values of a disparate range of goods to show that frequency
+distributions are commonly fat-tailed. This result implies that **any
+stable population distribution will generally have infinite variance
+and perhaps undefined mean**. Models with agents that reason
+about their behavior and are influenced by, but do not imitate,
+other agents known to them will typically generate fat-tailed time
+series data. A simulation model of intermediated exchange is
+reported that is populated by such agents and yields the same type
+of fat-tailed time series and cross-sectional data that is found in
+data for fast moving consumer goods and for retail outlets. This
+result supports the proposition that **adaptive agent models of
+markets with agents that reason and are socially embedded have
+the same statistical signatures as real markets**. Whereas this
+statistical signature precludes any conventional hypothesis testing
+or forecasting, these models do offer unique opportunities for
+validation on the basis of domain expertise and qualitative data.
+Perhaps the most striking conclusion is that neither current social
+theory nor any similar construct will ever support an effective
+policy analysis. However, adaptive agent modeling is an effective
+substitute when embedded in a wider policy analysis procedure.
+\\
+====Constructing and Implementing an Agent-Based Model of Residential Segregation through Vector GIS====
+|A. T. Crooks, 2008| UCL Working Paper 133| [[http://www.leg.ufpr.br/~pedro/papers/abm-segregation-gis.pdf|pdf]]|
+\\
+**Abstract: ** In this paper, we present a geographically explicit agent-based model, loosely
+coupled with vector GIS, which explicitly captures and uses geometrical data and
+socio economic attributes in the simulation process. The ability to represent the
+urban environment as a series of points, line and polygons not only allows one to
+represent a range of different sized features such as houses or larger areas portrayed
+as the urban environment but is a move away from many agent-based models
+utilising GIS which are rooted in grid-based structures. We apply this model to the
+study of residential segregation, specifically creating a Schelling (1971, 1978) type
+of model within a hypothetical cityscape, thus demonstrating how this approach can
+be used for linking vector-based GIS and agent-based modelling. A selection of
+simulation experiments are presented, highlighting the inner workings of the model
+and how aggregate patterns of segregation can emerge from the mild tastes and
+preferences of individual agents interacting locally over time. Furthermore, the
+paper suggests how this model could be extended and demonstrates the importance
+of explicit geographical space in the modelling process.
+\\
+====Is Religion an Evolutionary Adaptation?====
+|J Dow,2008| Journal of Artificial Societies and Social Simulation  11(2)| [[http://jasss.soc.surrey.ac.uk/11/2/2.html|html]]|
+\\
+** Abstract:**   Religious people talk about things that cannot be seen, stories that cannot be verified, and beings and forces beyond the ordinary. Perhaps their gods are truly at work, or perhaps in human nature there is an impulse to proclaim religious knowledge. If so, it would have to have arisen by natural selection. It is hard to imagine how natural selection could have produced such an impulse. There is a debate among evolutionary scientists about whether or not there is any adaptive advantage to religion at all (Bulbulia 2004a; Atran and Norenzayan 2004). Some believe that it has no adaptive value itself and that it is just a hodge podge of of behaviors that have evolved because they are adaptive in other non-religious contexts. The agent-based simulation described in this article shows that a central unifying feature of religion, **a belief in an unverifiable world, could have evolved along side of verifiable knowledge**. The simulation makes use of an agent-based communication model with two types of information: verifiable information (real information) about a real world and unverifiable information (unreal information) about about an imaginary world. It examines the conditions necessary for the communication of unreal information to have evolved along side the communication of real information. It offers support for the theory that religion is an adaptive complex and it disputes the theory that religion is a byproduct of unrelated adaptive processes.
+\\
+The existence of gods, spirits, and the like cannot be verified by the senses. A belief in them makes no sense from an common evolutionary point of view. The animal whose conception of the world is out of touch with reality should be eliminated by natural selection. The one whose mental images correspond most closely to the real environment should be one to survive. The primary problem of explaining how religion has evolved through natural selection is the problem of explaining the belief in unreal things.
+The agents with whom an agent communicates can be chosen randomly from a uniform distribution of the agents, or they can be chosen from a distribution based on the tendency of another agent to engage in unreal communication.
+====Articulating land and water dynamics with urbanization: an attempt to model natural resources management at the urban edge====
+|R. Ducrot, C. Le Page, P. Bommel, M. Kuper, 2004| Computers, Environment and Urban Systems| [[http://www.leg.ufpr.br/~pedro/papers/ceus/water-dynamics.pdf|pdf]]|
+{{  http://www.leg.ufpr.br/~pedro/figures/water-dynamics.jpg?300}}
+**Abstract:** In a rapidly urbanizing world, population densities no longer allow for unlimited access to
+safe water. Competition for water, often associated with competition for the access to land,
+tends to be exacerbated in peri-urban areas. The objective of this paper is to propose a multiagent
+model prototype to represent the relationships between urbanization dynamics and land
+and water management in a peri-urban catchment area. A spatially explicit pilot model was
+developed using the Cormas platform. This prototype deals with a catchment that is the main
+drinking water reservoir and spring of a metropolitan area, and is subjected to high urban
+pressure and problems of pollution connected to land use and rain. The combined use of cellular
+automata, spatialized passive entities and communicating agents allows the articulation
+of the connections between hydrological processes (water cycle, pollution), land-use changes
+and urbanization. However, the representation is based on simplified dynamics and further
+work is needed to develop a simulation model that could be used as a discussion tool for land
+and water management at the urban edge.
+\\
+This work presents a simple model of agents. There is no real data, unless some temporal events such as crop cycles. It studies more the growth of favelas than the water dynamics per se.
 ====Simulation of common pool resource field experiments: a behavioral model of collective action====
@@ Linha 580: / Linha 696: @@
 Each agent has a constant level of honesty and a risk-aversion level that changes over time.
 No interesting conclusions.
 ====Multi-agent simulation of group foraging in sheep: effects of spatial memory, conspecific attraction and plot size====