Litcius/Paper detail

Free energy and inference in living systems

Chang Sub Kim

2023Interface Focus12 citationsDOIOpen Access PDF

Abstract

Organisms are non-equilibrium, stationary systems self-organized via spontaneous symmetry breaking and undergoing metabolic cycles with broken detailed balance in the environment. The thermodynamic free-energy (FE) principle describes an organism's homeostasis as the regulation of biochemical work constrained by the physical FE cost. By contrast, recent research in neuroscience and theoretical biology explains a higher organism's homeostasis and allostasis as Bayesian inference facilitated by the informational FE. As an integrated approach to living systems, this study presents an FE minimization theory overarching the essential features of both the thermodynamic and neuroscientific FE principles. Our results reveal that the perception and action of animals result from active inference entailed by FE minimization in the brain, and the brain operates as a Schrödinger's machine conducting the neural mechanics of minimizing sensory uncertainty. A parsimonious model suggests that the Bayesian brain develops the optimal trajectories in neural manifolds and induces a dynamic bifurcation between neural attractors in the process of active inference.

Topics & Concepts

InferenceFree energy principleAllostasisBayesian inferenceLiving systemsComputer scienceNon-equilibrium thermodynamicsArtificial intelligenceBayesian probabilityArtificial neural networkAction (physics)Machine learningNeurosciencePhysicsPsychologyQuantum mechanicsNeural dynamics and brain functionAdvanced Thermodynamics and Statistical MechanicsPlant and Biological Electrophysiology Studies