Possible Principles Underlying the Transformations of Sensory Messages

Related work— refs + corpus + external arXiv

Cited / in-corpus / arXiv badges show which signals surfaced each row. Multi-source rows weighted higher.

• The principles of adaptation in organisms and machines I: machine learning, information theory, and thermodynamics

  Hideaki Shimazaki

  2019
  ≈ 73%
• Structure & Quality: Conceptual and Formal Foundations for the Mind-Body Problem

  Ryan Williams

  2025
  ≈ 72%
• Proposal of Pattern Recognition as a necessary and sufficient Principle to Cognitive Science

  Gilberto de Paiva

  2011
  ≈ 72%
• Pattern Recognition Theory of Mind

  Gilberto de Paiva

  2009
  ≈ 72%
• The Principles of Human-like Conscious Machine

  Fangfang Li and Xiaojie Zhang

  2025
  ≈ 71%
• Towards Explaining Subjective Ground of Individuals on Social Media

  Younghun Lee and Dan Goldwasser

  2022
  ≈ 71%
• General Mechanism of Evolution Shared by Proteins and Words

  Hsing-Yi Lai, Sun-Ting Tsai, Chen Siang Ng, Kevin Sheng-Kai Ma, Shan-Jyun Wu, Meng-Xue Tsai, Yi-Ching Su, Daw-Wei Wang, and Tzay-Ming Hong Li-Min Wang

  2026
  ≈ 71%
• Elements of Consciousness and Cognition. Biology, Mathematic, Physics and Panpsychism: an Information Topology Perspective

  Pierre Baudot

  2018
  ≈ 71%
• Systems Explaining Systems: A Framework for Intelligence and Consciousness

  Sean Niklas Semmler

  2026
  ≈ 71%
• From Physics to Sentience: Deciphering the Semantics of the Free-Energy Principle and Evaluating its Claims

  Zahra Sheikhbahaee and Adam Safron and Casper Hesp and Guillaume Dumas

  2024
  ≈ 71%
• Exploring Cognition through Morphological Info-Computational Framework

  Gordana Dodig-Crnkovic

  2024
  ≈ 70%
• Neural mechanisms of predictive processing: a collaborative community experiment through the OpenScope program

  Nicholas Audette, Ryszard Auksztulewicz, Krzysztof Basi\'nski, Andr\'e M. Bastos, Michael Berry, Andres Canales-Johnson, Hannah Choi, Claudia Clopath, Uri Cohen, Rui Ponte Costa, Roberto De Filippo, Roman Doronin, S\'everine Durand, Steven P. Errington, Jeffrey P. Gavornik, Colleen J. Gillon, Arno Granier, Jordan P. Hamm, Loreen Hert\"ag, Henry Kennedy, Sandeep Kumar, Alexander Ladd, Hugo Ladret, J\'er\^ome A. Lecoq, Alexander Maier, Patrick McCarthy, Jie Mei, Jorge Mejias, John Hongyu Meng, Fabian Mikulasch, Noga Mudrik, Farzaneh Najafi, Kevin Nejad, Hamed Nejat, Karim Oweiss, Mihai A. Petrovici, Viola Priesemann, Lucas Rudelt, Sarah Ruediger, Simone Russo, Alessandro Salatiello, Walter Senn, Eli Sennesh, Sepehr Sima, Cem Uran, Anna Vasilevskaya, Julien Vezoli, Martin Vinck, Xiao-Jing Wang, Jacob A. Westerberg, Katharina Wilmes, Yihan Sophy Xiong Ido Aizenbud

  2026
  ≈ 70%
• A Human-centric Framework for Debating the Ethics of AI Consciousness Under Uncertainty

  Haiqiang Dai, Bin Ling, Ying Nian Wu, Demetri Terzopoulos Zhou Ziheng

  2025
  ≈ 70%
• Consciousness: Here, There but Not Everywhere

  and Christof Koch Giulio Tononi

  2023
  ≈ 70%
• The meta-problem and the transfer of knowledge between theories of consciousness: a software engineer's take

  Marcel Kvassay

  2019
  ≈ 70%
• Multiple ways to implement and infer sentience

  in corpus
  ≈ 70%
• Brains and where else? Mapping theories of consciousness to unconventional embodiments

  in corpus

  2026
  ≈ 69%
• Technological Approach to Mind Everywhere: An Experimentally-Grounded Framework for Understanding Diverse Bodies and Minds

  in corpus

  2022
  ≈ 68%
• A Free energy principle for the brain (lecture summary)

  in corpus

  2008
  ≈ 67%
• The biogenic approach to cognition

  in corpus

  2005
  ≈ 67%
• Consciousness in Artificial Intelligence: Insights from the Science of Consciousness

  in corpus

  2023
  ≈ 67%
• Cognitive glues are shared models of relative scarcities: the economics of collective intelligence

  in corpus

  2026
  ≈ 67%
• Mechanistic Interpretability of EEG Foundation Models via Sparse Autoencoders

  in corpus

  2026
  ≈ 66%
• The Machine Consciousness Hypothesis

  in corpus
  ≈ 66%
• Janus Information Flow Transformers 2025

  in corpus
  ≈ 66%
• Active inference on discrete state-spaces: a synthesis

  in corpus

  2020
  ≈ 66%
• Generalizing frameworks for sentience beyond natural species

  in corpus
  ≈ 66%
• The Platonic Representation Hypothesis

  in corpus

  2024
  ≈ 65%
• Collective intelligence: A unifying concept for integrating biology across scales and substrates

  in corpus

  2024
  ≈ 65%

Similar preprints — Semantic Scholar

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• The Platonic Representation Hypothesis

  Neural networks trained on different data modalities, architectures, and objectives are converging toward a shared statistical model of reality — what the paper terms the "platonic representation" — f

• Active Inference, Curiosity and Insight

  Minimizing expected variational free energy under a discrete-state Markov decision process generative model is sufficient to produce curiosity, epistemic learning, and insight without any additional m

• Active Inference: A Process Theory

  A single variational principle—minimizing variational free energy via gradient descent on a Markov decision process (MDP) generative model—is sufficient to derive neuronal dynamics that reproduce, wit

• Life as we know it

  Any ergodic random dynamical system possessing a Markov blanket will, almost surely, appear to engage in active inference and maintain autopoietic integrity—making biological self-organization not a r