Litcius/Paper detail

From generative models to generative passages: A computational approach to (neuro)phenomenology

Maxwell J. D. Ramstead, Anil K. Seth, Casper Hesp, Lars Sandved-Smith, Jonas Mago, Michael Lifshitz, Giuseppe Pagnoni, Ryan Smith, Guillaume Dumas, Antoine Lutz, Karl Friston, Axel Constant

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Abstract

This paper presents a version of neurophenomenology based on generative modelling techniques developed in computational neuroscience and biology. We call this approach computational phenomenology because it applies methods originally developed in computational modelling to phenomenology. The first section presents a brief review of the project to naturalize phenomenology. The second section presents and evaluates philosophical objections to that project, and situates our project with respect to these projects. The third section reviews the generative modelling framework. The following section presents our new approach to neurophenomenology based on generative modelling. We then discuss how this application of generative modelling differs from previous attempts to use it to explain consciousness. In summary, generative modelling allows us to construct a computational model of the inferential or interpretive process that best explain this or that kind of lived experience.

Topics & Concepts

Generative grammarPhenomenology (philosophy)Cognitive scienceConsciousnessComputer scienceConstruct (python library)Generative modelArtificial intelligenceComputational modelSection (typography)EpistemologyPsychologyPhilosophyProgramming languageOperating systemCognitive Science and Education ResearchNeuroscience, Education and Cognitive FunctionEmbodied and Extended Cognition