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Bibliographic Details
Main Authors: Goehle, Geoff, Griffin, Christopher
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2407.03074
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author Goehle, Geoff
Griffin, Christopher
author_facet Goehle, Geoff
Griffin, Christopher
contents In this short communication we investigate an information theoretic analogue of the classic two masses on spring system, arising from a physical interpretation of Friston's free energy principle in the theory of learning in a system of agents. Using methods from classical mechanics on manifolds, we define a kinetic energy term using the Fisher metric on distributions and a potential energy function defined in terms of stress on the agents' beliefs. The resulting Lagrangian (Hamiltonian) produces a variation of the classic DeGroot dynamics. In the two agent case, the potential function is defined using the Jeffrey's divergence and the resulting dynamics are characterized by a non-linear spring. These dynamics produce trajectories that resemble flows on tori but are shown numerically to produce chaos near the boundary of the space. We then investigate persuasion as an information theoretic control problem where analysis indicates that manipulating peer pressure with a fixed target is a more stable approach to altering an agent's belief than providing a slowly changing belief state that approaches the target.
format Preprint
id arxiv_https___arxiv_org_abs_2407_03074
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Dynamics of An Information Theoretic Analog of Two Masses on a Spring
Goehle, Geoff
Griffin, Christopher
Physics and Society
Adaptation and Self-Organizing Systems
In this short communication we investigate an information theoretic analogue of the classic two masses on spring system, arising from a physical interpretation of Friston's free energy principle in the theory of learning in a system of agents. Using methods from classical mechanics on manifolds, we define a kinetic energy term using the Fisher metric on distributions and a potential energy function defined in terms of stress on the agents' beliefs. The resulting Lagrangian (Hamiltonian) produces a variation of the classic DeGroot dynamics. In the two agent case, the potential function is defined using the Jeffrey's divergence and the resulting dynamics are characterized by a non-linear spring. These dynamics produce trajectories that resemble flows on tori but are shown numerically to produce chaos near the boundary of the space. We then investigate persuasion as an information theoretic control problem where analysis indicates that manipulating peer pressure with a fixed target is a more stable approach to altering an agent's belief than providing a slowly changing belief state that approaches the target.
title Dynamics of An Information Theoretic Analog of Two Masses on a Spring
topic Physics and Society
Adaptation and Self-Organizing Systems
url https://arxiv.org/abs/2407.03074