On Bayesian mechanics: a physics of and by beliefs-Reference-Cited by-同舟云学术

On Bayesian mechanics: a physics of and by beliefs

Published:2023-04-14 Issue:3 Volume:13 Page:
ISSN:2042-8901
Container-title:Interface Focus
language:en
Short-container-title:Interface Focus.

Author:

Ramstead Maxwell J. D.¹²,Sakthivadivel Dalton A. R.¹³⁴⁵^ORCID,Heins Conor¹⁶⁷⁸,Koudahl Magnus¹⁹,Millidge Beren¹¹⁰,Da Costa Lancelot²¹¹^ORCID,Klein Brennan¹¹²,Friston Karl J.¹²^ORCID

Affiliation:

1. VERSES Research Lab, Los Angeles, CA 90016, USA

2. Wellcome Centre for Human Neuroimaging, University College London, London WC1N 3AR, UK

3. Department of Mathematics, Stony Brook University, Stony Brook, NY, USA

4. Department of Physics and Astronomy, Stony Brook University, Stony Brook, NY, USA

5. Department of Biomedical Engineering, Stony Brook University, Stony Brook, NY, USA

6. Department of Collective Behaviour, Max Planck Institute of Animal Behavior, 78464 Konstanz, Germany

7. Department of Biology, University of Konstanz, 78464 Konstanz, Germany

8. Centre for the Advanced Study of Collective Behaviour, University of Konstanz, 78464 Konstanz, Germany

9. Department of Electrical Engineering, Eindhoven University of Technology, Eindhoven, The Netherlands

10. Brain Network Dynamics Unit, University of Oxford, Oxford, UK

11. Department of Mathematics, Imperial College London, London SW7 2AZ, UK

12. Network Science Institute, Northeastern University, Boston, MA, USA

Abstract

The aim of this paper is to introduce a field of study that has emerged over the last decade, called Bayesian mechanics. Bayesian mechanics is a probabilistic mechanics, comprising tools that enable us to model systems endowed with a particular partition (i.e. into particles), where the internal states (or the trajectories of internal states) of a particular system encode the parameters of beliefs about external states (or their trajectories). These tools allow us to write down mechanical theories for systems that look as if they are estimating posterior probability distributions over the causes of their sensory states. This provides a formal language for modelling the constraints, forces, potentials and other quantities determining the dynamics of such systems, especially as they entail dynamics on a space of beliefs (i.e. on a statistical manifold). Here, we will review the state of the art in the literature on the free energy principle, distinguishing between three ways in which Bayesian mechanics has been applied to particular systems (i.e. path-tracking, mode-tracking and mode-matching). We go on to examine a duality between the free energy principle and the constrained maximum entropy principle, both of which lie at the heart of Bayesian mechanics, and discuss its implications.

Funder

Office of Naval Research

Biotechnology and Biological Sciences Research Council

Wellcome Trust

EPSRC Centre for Doctoral Training in Mathematics of Random Systems: Analysis, Modelling and Simulation

Canada-UK Artificial Intelligence Initiative

Fonds National de la Recherche Luxembourg

John Templeton Foundation

Medical Research Council

Publisher

The Royal Society

Subject

Biomedical Engineering,Biomaterials,Biochemistry,Bioengineering,Biophysics,Biotechnology

Link

https://royalsocietypublishing.org/doi/pdf/10.1098/rsfs.2022.0029

Reference118 articles.

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