Mauro Rodríguez Cartabia scite author profile

Mauro Rodríguez Cartabia

4Publications

28Citation Statements Received

82Citation Statements Given

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Affiliations

Consejo Nacional de Investigaciones Científicas y Técnicas, University of Buenos Aires, Fundación Ciencias Exactas y Naturales

Publications

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Cucker-Smale model with time delay

Cartabia¹

2022

DCDS

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<p style='text-indent:20px;'>We study the flocking model for continuous time introduced by Cucker and Smale adding a positive time delay <inline-formula><tex-math id="M1">\begin{document}$ \tau $\end{document}</tex-math></inline-formula>. The goal of this article is to prove that the same unconditional flocking result for the non-delayed case is valid in the delayed case. A novelty is that we do not need to impose any restriction on the size of <inline-formula><tex-math id="M2">\begin{document}$ \tau $\end{document}</tex-math></inline-formula>. Furthermore, when the unconditional flocking occurs, velocities converge exponentially fast to a common one.</p>

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A Game Theoretic Model of Wealth Distribution

2018

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In this work we consider an agent based model in order to study the wealth distribution problem where the interchange is determined with a symmetric zero sum game. Simultaneously, the agents update their way of play trying to learn the optimal one. Here, the agents use mixed strategies. We study this model using both simulations and theoretical tools. We derive the equations for the learning mechanism, and we show that the mean strategy of the population satisfies an equation close to the classical replicator equation.Concerning the wealth distribution, there are two interesting situations depending on the equilibrium of the game. If the equilibrium is a pure strategy, the wealth distribution is fixed after some transient time, and those players which are close to optimal strategy are richer. When the game has an equilibrium in mixed strategies, the stationary wealth distribution is close to a Gamma distribution with variance depending on the coefficients of the game matrix. We compute theoretically their second moment in this case.

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Evolutionary game theory in mixed strategies: From microscopic interactions to kinetic equations

Pinasco¹,

Cartabia²,

Saintier³

2021

KRM

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In this work we propose a kinetic formulation for evolutionary game theory for zero sum games when the agents use mixed strategies. We start with a simple adaptive rule, where after an encounter each agent increases by a small amount h the probability of playing the successful pure strategy used in the match. We derive the Boltzmann equation which describes the macroscopic effects of this microscopical rule, and we obtain a first order, nonlocal, partial differential equation as the limit when h goes to zero. We study the relationship between this equation and the well known replicator equations, showing the equivalence between the concepts of Nash equilibria, stationary solutions of the partial differential equation, and the equilibria of the replicator equations. Finally, we relate the long-time behavior of solutions to the partial differential equation and the stability of the replicator equations.

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Persistence criteria for a chemostat with variable nutrient input and variable washout with delayed response in growth

Cartabia

2023

Chaos, Solitons & Fractals

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