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Autori principali: Venegas-Pineda, Luis Guillermo, Jardón-Kojakhmetov, Hildeberto, Engel, Maximilian, Heitzig, Jobst, Eser, Muhittin Cenk, Cao, Ming
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2405.10915
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author Venegas-Pineda, Luis Guillermo
Jardón-Kojakhmetov, Hildeberto
Engel, Maximilian
Heitzig, Jobst
Eser, Muhittin Cenk
Cao, Ming
author_facet Venegas-Pineda, Luis Guillermo
Jardón-Kojakhmetov, Hildeberto
Engel, Maximilian
Heitzig, Jobst
Eser, Muhittin Cenk
Cao, Ming
contents We study a prototypical non-polynomial decision-making model for which agents in a population potentially alternate between two consumption strategies, one related to the exploitation of an unlimited but considerably expensive resource and the other a comparably cheaper but restricted and slowly renewable source. In particular, we study a model following a Boltzmann-like exploration policy, enhancing the accuracy at which the exchange rates are captured with respect to classical polynomial approaches by considering sigmoidal functions to represent the cost-profit relation in both exploit strategies. Additionally, given the intrinsic timescale separation between the decision-making process and recovery rates of the renewable resource, we use geometric singular perturbation theory to analyze the model. We further use numerical analysis to determine parameter ranges for which the model undergoes bifurcations. These bifurcations, being related to critical states of the system, are relevant to the fast transitions between strategies. Hence, we design controllers to regulate such rapid transitions by taking advantage of the system's criticality.
format Preprint
id arxiv_https___arxiv_org_abs_2405_10915
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Strategic control for a Boltzmann like decision-making model
Venegas-Pineda, Luis Guillermo
Jardón-Kojakhmetov, Hildeberto
Engel, Maximilian
Heitzig, Jobst
Eser, Muhittin Cenk
Cao, Ming
Dynamical Systems
We study a prototypical non-polynomial decision-making model for which agents in a population potentially alternate between two consumption strategies, one related to the exploitation of an unlimited but considerably expensive resource and the other a comparably cheaper but restricted and slowly renewable source. In particular, we study a model following a Boltzmann-like exploration policy, enhancing the accuracy at which the exchange rates are captured with respect to classical polynomial approaches by considering sigmoidal functions to represent the cost-profit relation in both exploit strategies. Additionally, given the intrinsic timescale separation between the decision-making process and recovery rates of the renewable resource, we use geometric singular perturbation theory to analyze the model. We further use numerical analysis to determine parameter ranges for which the model undergoes bifurcations. These bifurcations, being related to critical states of the system, are relevant to the fast transitions between strategies. Hence, we design controllers to regulate such rapid transitions by taking advantage of the system's criticality.
title Strategic control for a Boltzmann like decision-making model
topic Dynamical Systems
url https://arxiv.org/abs/2405.10915