The free energy principle (FEP) states that any dynamical system can be interpreted as performing Bayesian inference upon its surrounding environment. Although, in theory, the FEP applies to a wide variety of systems, there has been almost no direct exploration or demonstration of the principle in concrete systems. In this work, we examine in depth the assumptions required to derive the FEP in the simplest possible set of systems – weakly-coupled non-equilibrium linear stochastic systems. Specifically, we explore (i) how general the requirements imposed on the statistical structure of a system are and (ii) how informative the FEP is about the behaviour of such systems. We discover that two requirements of the FEP – the Markov blanket condit...
Over the last fifteen years, an ambitious explanatory framework has been proposed to unify explanati...
The free energy principle is notoriously difficult to understand. In this paper, we relate the princ...
The free-energy principle claims that biological systems behave adaptively maintaining their physica...
The free energy principle (FEP) states that any dynamical system can be interpreted as performing Ba...
Biehl et al. (2021) present some interesting observations on an early formulation of the free energy...
The free energy principle (FEP) has been presented as a unified brain theory, as a general principle...
In this commentary, we respond to a technical analysis of the Free Energy Principle (hereafter: FEP)...
The issue of the relationship between predictive processing (PP) and the free energy principle (FEP)...
In this commentary, I expand on the analysis of the recent article "How particular is the physics of...
The free energy principle is a mathematical theory of the behaviour of self-organising systems that ...
Much has been written about the free energy principle (FEP), and much misunderstood. The principle h...
We review some of the main implications of the free-energy principle (FEP) for the study of the self...
The Free Energy Principle (FEP) states that under suitable conditions of weak coupling, random dynam...
The free energy principle is based on Bayesian theory and generally makes use of functional concepts...
Over the last fifteen years, an ambitious explanatory framework has been proposed to unify explanati...
Over the last fifteen years, an ambitious explanatory framework has been proposed to unify explanati...
The free energy principle is notoriously difficult to understand. In this paper, we relate the princ...
The free-energy principle claims that biological systems behave adaptively maintaining their physica...
The free energy principle (FEP) states that any dynamical system can be interpreted as performing Ba...
Biehl et al. (2021) present some interesting observations on an early formulation of the free energy...
The free energy principle (FEP) has been presented as a unified brain theory, as a general principle...
In this commentary, we respond to a technical analysis of the Free Energy Principle (hereafter: FEP)...
The issue of the relationship between predictive processing (PP) and the free energy principle (FEP)...
In this commentary, I expand on the analysis of the recent article "How particular is the physics of...
The free energy principle is a mathematical theory of the behaviour of self-organising systems that ...
Much has been written about the free energy principle (FEP), and much misunderstood. The principle h...
We review some of the main implications of the free-energy principle (FEP) for the study of the self...
The Free Energy Principle (FEP) states that under suitable conditions of weak coupling, random dynam...
The free energy principle is based on Bayesian theory and generally makes use of functional concepts...
Over the last fifteen years, an ambitious explanatory framework has been proposed to unify explanati...
Over the last fifteen years, an ambitious explanatory framework has been proposed to unify explanati...
The free energy principle is notoriously difficult to understand. In this paper, we relate the princ...
The free-energy principle claims that biological systems behave adaptively maintaining their physica...