Economic modeling using evolutionary algorithms: the effect of a binary encoding of strategies

Waltman, Ludo; Dekker, Rommert; Kaymak, Uzay

doi:10.1007/s00191-010-0177-1

Cited by 19 publications

(13 citation statements)

References 38 publications

(109 reference statements)

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“…Dawid and Dermietzel (2006) and Waltman et al (2011) highlighted this need by claiming that all elements of an EA should have meaningful economic interpretation. Besides the concern about the soundness of population size in economic environments (discussed in Sect.…”

Section: Discussionmentioning

confidence: 97%

Building Artificial Economies: From Aggregate Data to Experimental Microstructure. A Methodological Survey

Giulioni

D’Orazio

Bucciarelli

et al. 2014

Lecture Notes in Economics and Mathematical Systems

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Section: Discussionmentioning

confidence: 97%

Building Artificial Economies: From Aggregate Data to Experimental Microstructure. A Methodological Survey

Giulioni

D’Orazio

Bucciarelli

et al. 2014

Lecture Notes in Economics and Mathematical Systems

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“…From a modeling point of view, a binary encoding in many cases has the disadvantage that it lacks a clear interpretation (e.g., Dawid 1996). The use of a binary encoding can therefore be difficult to justify and may even lead to artifacts (as shown in Waltman and Van Eck 2009;Waltman et al 2011). Probably for these reasons, some researchers use evolutionary algorithms without a binary encoding (e.g., Haruvy et al 2006;Lux and Schornstein 2005).…”

Section: Discussionmentioning

confidence: 99%

“…Especially genetic algorithms (GAs) are frequently used. Early work in this stream of research includes (Andreoni and Miller 1995;Arifovic 1994Arifovic , 1996Dawid 1996;Holland and Miller 1991;Marks 1992;Miller 1986), and examples of more recent work are Alkemade et al (2006), Georges (2006, Haruvy et al (2006), Lux and Schornstein (2005), Vriend (2000), Van Eck (2009), andWaltman et al (2011). The other stream of research is more closely related to traditional game theory and is referred to as evolutionary game theory (e.g., Gintis 2000;Maynard Smith 1982;Vega-Redondo 1996;Weibull 1995).…”

Section: Introductionmentioning

confidence: 99%

A mathematical analysis of the long-run behavior of genetic algorithms for social modeling

Waltman

2012

Soft Comput

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We present a mathematical analysis of the long-run behavior of genetic algorithms (GAs) that are used for modeling social phenomena. Our analysis relies on commonly used mathematical techniques in the field of evolutionary game theory. We make a number of assumptions in our analysis, the most important one being that the mutation rate is positive but infinitely small. Given our assumptions, we derive results that can be used to calculate the exact long-run behavior of a GA. Using these results, the need to rely on computer simulations can be avoided. We also show that if the mutation rate is infinitely small the crossover rate has no effect on the long-run behavior of a GA. To demonstrate the usefulness of our mathematical analysis, we replicate a well-known study by Axelrod in which a GA is used to model the evolution of strategies in iterated prisoner's dilemmas. The theoretically predicted long-run behavior of the GA turns out to be in perfect agreement with the long-run behavior observed in computer simulations. Also, in line with our theoretically informed expectations, computer simulations indicate that the crossover rate has virtually no long-run effect. Some general new insights into the behavior of GAs in the prisoner's dilemma context are provided as well.

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“…So, similar to social evolutionary algorithms, social PSO algorithms can be afflicted by premature convergence at low population levels. In contrast to Alkemade et al (2006Alkemade et al ( , 2007Alkemade et al ( , 2009 ;Waltman, van Eck, Dekker, and Kaymak (2011) argued that in evolutionary algorithms it is the binary encoding of strategies that is the culprit, illustrating simulations utilizing real-valued encoding of strategies do not exhibit premature convergence even at very low population levels. Binary encoding of strategies is not utilized in this study.…”

Section: The Influence Of Population Size N On Simulation Dynamicsmentioning

confidence: 99%

Particle Swarm Optimization in Agent‐Based Economic Simulations of the Cournot Market Model

Maschek

2015

Intell. Sys. Acc. Fin. Mgmt.

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Summary The numerous variations of the particle swarm optimization (PSO) algorithm originally proposed by Kennedy and Eberhart (. Particle swarm optimization. In Proceedings of the IEEE International Conference on Neural Networks IV. IEEE: Piscataway, NJ; 1942–1948) have proven to be powerful optimization methods that rely on exploiting simple analogues of social interaction. In this study, PSO is adopted in lieu of the social or individual evolutionary learning algorithms as a model of individual adaptation in an agent‐based computational model. In this examination of the simple Cournot market framework, each agent's individual strategy evolves according to the PSO algorithm. The model is one in which agents’ strategies must adapt interdependently. That is, a change in one particle may not only affect its performance but also other particles within the same swarm simultaneously. The dynamics and convergence properties associated with this model are compared with those where evolutionary learning algorithms are employed. Similar to evolutionary learning, convergence to equilibrium is dependent on the scope of learning, social or individual. While convergence is dependent on some of the algorithm parameters, prices resulting from the individual PSO are nearest the Cournot equilibrium and those from social PSO are nearest the Walrasian equilibrium in all cases. For particular parameterizations, certain advantages over evolutionary algorithms exist: in the main, decreasing volatility in market prices does not require an election operator or the addition of free parameters through two‐level learning. Copyright © 2015 John Wiley & Sons, Ltd.

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Economic modeling using evolutionary algorithms: the effect of a binary encoding of strategies

Cited by 19 publications

References 38 publications

Building Artificial Economies: From Aggregate Data to Experimental Microstructure. A Methodological Survey

Building Artificial Economies: From Aggregate Data to Experimental Microstructure. A Methodological Survey

A mathematical analysis of the long-run behavior of genetic algorithms for social modeling

Particle Swarm Optimization in Agent‐Based Economic Simulations of the Cournot Market Model

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