The aim of this article is to clarify how best to interpret some of the central constructs that underwrite the free-energy principle (FEP) - and its corollary, active inference - in theoretical neuroscience and biology: namely, the role that generative models and variational densities play in this theory. We argue that these constructs have been systematically misrepresented in the literature, because of the conflation between the FEP and active inference, on the one hand, and distinct (albeit closely related) Bayesian formulations, centred on the brain - variously known as predictive processing, predictive coding or the prediction error minimisation framework. More specifically, we examine two contrasting interpretations of these models: a...
The free energy principle, and its corollary active inference, constitute a bio-inspired theory that...
The aim of this paper is to leverage the free-energy principle and its corollary process theory, act...
To infer the causes of its sensations, the brain must call on a generative (predictive) model. This ...
The aim of this paper is to clarify how best to interpret some of the central constructs that underw...
The aim of this article is to clarify how best to interpret some of the central constructs that unde...
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...
"A much-needed synthesis of active inference, a theory of mind that addresses cognition, behavior, i...
The free energy principle (FEP) has been presented as a unified brain theory, as a general principle...
In this paper, we argue for a theoretical separation of the free-energy principle from Helmholtzian ...
Disagreement about how best to think of the relation between theories and the realities they represe...
To infer the causes of its sensations, the brain must call on a generative (predictive) model. This ...
The Free Energy Principle (FEP) has been proposed as a unifying explanation of adaptive behaviour wi...
The free energy principle, and its corollary active inference, constitute a bio-inspired theory that...
The first comprehensive treatment of active inference, an integrative perspective on brain, cognitio...
The free energy principle, and its corollary active inference, constitute a bio-inspired theory that...
The aim of this paper is to leverage the free-energy principle and its corollary process theory, act...
To infer the causes of its sensations, the brain must call on a generative (predictive) model. This ...
The aim of this paper is to clarify how best to interpret some of the central constructs that underw...
The aim of this article is to clarify how best to interpret some of the central constructs that unde...
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...
"A much-needed synthesis of active inference, a theory of mind that addresses cognition, behavior, i...
The free energy principle (FEP) has been presented as a unified brain theory, as a general principle...
In this paper, we argue for a theoretical separation of the free-energy principle from Helmholtzian ...
Disagreement about how best to think of the relation between theories and the realities they represe...
To infer the causes of its sensations, the brain must call on a generative (predictive) model. This ...
The Free Energy Principle (FEP) has been proposed as a unifying explanation of adaptive behaviour wi...
The free energy principle, and its corollary active inference, constitute a bio-inspired theory that...
The first comprehensive treatment of active inference, an integrative perspective on brain, cognitio...
The free energy principle, and its corollary active inference, constitute a bio-inspired theory that...
The aim of this paper is to leverage the free-energy principle and its corollary process theory, act...
To infer the causes of its sensations, the brain must call on a generative (predictive) model. This ...