Dynamics for a quantum parliament

F. Bagarello; F. Gargano

arXiv:2302.02853·quant-ph·February 15, 2023

Dynamics for a quantum parliament

F. Bagarello, F. Gargano

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TL;DR

This paper introduces a quantum dynamical model for decision-making in a 'quantum parliament,' using Lindblad equations to simulate interactions and collaborative behaviors among members.

Contribution

It presents a novel quantum dynamical framework for modeling decision processes and interactions in a parliamentary setting, incorporating collaboration dynamics.

Findings

01

Model captures collaborative and non-collaborative behaviors

02

Uses Lindblad equations for decision dynamics

03

Provides a new approach to quantum decision modeling

Abstract

In this paper we propose a dynamical approach based on the Gorini-Kossakowski-Sudarshan-Lindblad equation for a problem of decision making. More specifically, we consider what was recently called a quantum parliament, asked to approve or not a certain law, and we propose a model of the connections between the various members of the parliament, proposing in particular some special form of the interactions giving rise to a {\em collaborative} or non collaborative behaviour.

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Taxonomy

TopicsQuantum Mechanics and Applications · Advanced Thermodynamics and Statistical Mechanics · Opinion Dynamics and Social Influence