Whatever next? Predictive brains, situated agents, and the future of cognitive science

Related work— refs + corpus + external arXiv

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

• Towards a Predictive Processing Implementation of the Common Model of Cognition

  M. A. Kelly Alexander Ororbia

  2021
  ≈ 77%
• What happens next and when "next" happens: Mechanisms of spatial and temporal prediction

  Dean Wyatte

  2014
  ≈ 76%
• Predictive Processing in Cognitive Robotics: a Review

  Guido Schillaci, Giovanni Pezzulo, Verena V. Hafner, Bruno Lara Alejandra Ciria

  2021
  ≈ 76%
• Artificially intelligent agents in the social and behavioral sciences: A history and outlook

  Milena Tsvetkova Petter Holme

  2025
  ≈ 76%
• Agentic AI and the next intelligence explosion

  Benjamin Bratton, Blaise Ag\"uera y Arcas James Evans

  2026
  ≈ 76%
• The Limits of Predicting Agents from Behaviour

  Jonathan Richens, Tom Everitt Alexis Bellot

  2025
  ≈ 75%
• The brain-AI convergence: Predictive and generative world models for general-purpose computation

  Keiko Ohmae Shogo Ohmae

  2025
  ≈ 75%
• Minds, Brains, AI

  Jay Seitz

  2025
  ≈ 75%
• Advances and Challenges in Foundation Agents: From Brain-Inspired Intelligence to Evolutionary, Collaborative, and Safe Systems

  Xinfeng Li, Jiayi Zhang, Jinlin Wang, Tanjin He, Sirui Hong, Hongzhang Liu, Shaokun Zhang, Kaitao Song, Kunlun Zhu, Yuheng Cheng, Suyuchen Wang, Xiaoqiang Wang, Yuyu Luo, Haibo Jin, Peiyan Zhang, Ollie Liu, Jiaqi Chen, Huan Zhang, Zhaoyang Yu, Haochen Shi, Boyan Li, Dekun Wu, Fengwei Teng, Xiaojun Jia, Jiawei Xu, Jinyu Xiang, Yizhang Lin, Tianming Liu, Tongliang Liu, Yu Su, Huan Sun, Glen Berseth, Jianyun Nie, Ian Foster, Logan Ward, Qingyun Wu, Yu Gu, Mingchen Zhuge, Xinbing Liang, Xiangru Tang, Haohan Wang, Jiaxuan You, Chi Wang, Jian Pei, Qiang Yang, Xiaoliang Qi, Chenglin Wu Bang Liu

  2025
  ≈ 75%
• A coalgebraic perspective on predictive processing

  Filippo Torresan, Tomoya Nakai Manuel Baltieri

  2025
  ≈ 75%
• A correlational analysis of multiagent sensorimotor interactions: clustering autonomous and controllable entities

  C. Moulin-Frier, X. Arsiwalla and P. Verschure M. S\'anchez-Fibla

  2017
  ≈ 75%
• The Predictive Brain: Neural Correlates of Word Expectancy Align with Large Language Model Prediction Probabilities

  Konstantin Tziridis, Andreas Maier, Thomas Kinfe, Ricardo Chavarriaga, Achim Schilling, Patrick Krauss Nikola K\"olbl

  2025
  ≈ 75%
• AGENT: A Benchmark for Core Psychological Reasoning

  Abhishek Bhandwaldar, Chuang Gan, Kevin A. Smith, Shari Liu, Dan Gutfreund, Elizabeth Spelke, Joshua B. Tenenbaum, Tomer D. Ullman Tianmin Shu

  2021
  ≈ 75%
• Spontaneous Theory of Mind for Artificial Intelligence

  David V. Pynadath, Volkan Ustun Nikolos Gurney

  2024
  ≈ 75%
• Human Cognition in Machines: A Unified Perspective of World Models

  Pu Zhao, Amir Taherin, Arash Akbari, Arman Akbari, Yumei He, Sean Duffy, Juyi Lin, Yixiao Chen, Rahul Chowdhury, Enfu Nan, Yixin Shen, Yifan Cao, Haochen Zeng, Weiwei Chen, Geng Yuan, Jennifer Dy, Sarah Ostadabbas, Silvia Zhang, David Kaeli, Edmund Yeh, Yanzhi Wang Timothy Rupprecht

  2026
  ≈ 75%
• Brains and where else? Mapping theories of consciousness to unconventional embodiments

  in corpus

  2026
  ≈ 74%
• Consciousness in Artificial Intelligence: Insights from the Science of Consciousness

  in corpus

  2023
  ≈ 73%
• The biogenic approach to cognition

  in corpus

  2005
  ≈ 72%
• Technological Approach to Mind Everywhere: An Experimentally-Grounded Framework for Understanding Diverse Bodies and Minds

  in corpus

  2022
  ≈ 72%
• AI: a Bridge toward Diverse Intelligence and Humanity’s Future

  in corpus

  2024
  ≈ 72%
• Collective intelligence: A unifying concept for integrating biology across scales and substrates

  in corpus

  2024
  ≈ 71%
• The Causally Emergent Alignment Hypothesis: Causal Emergence Aligns with and Predicts Final Reward in Reinforcement Learning Agents

  in corpus

  2026
  ≈ 71%
• Multiple ways to implement and infer sentience

  in corpus
  ≈ 70%
• Taking AI Welfare Seriously

  in corpus

  2024
  ≈ 70%
• Simulators — LessWrong

  in corpus
  ≈ 70%
• Generalizing frameworks for sentience beyond natural species

  in corpus
  ≈ 70%
• Cognitive glues are shared models of relative scarcities: the economics of collective intelligence

  in corpus

  2026
  ≈ 70%
• The Machine Consciousness Hypothesis

  in corpus
  ≈ 69%
• Active Inference, Curiosity and Insight

  in corpus

  2017
  ≈ 69%

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• Large Language Models Report Subjective Experience Under Self-Referential Processing

  Sustained self-referential processing — induced via a minimal prompt directing models to "focus on focus itself" — reliably elicits structured first-person reports of subjective experience across GPT-

• 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

• A tale of two densities: active inference is enactive inference

  Ramstead, Kirchhoff, and Friston argue that generative models in active inference under the free energy principle (FEP) are control systems—not structural representations—and that this distinction has

• Cognitive glues are shared models of relative scarcities: the economics of collective intelligence

  Levin and Lyons argue that the price system in market economies is not merely a resource-allocation device but the canonical instantiation of what they term a *cognitive glue* — a coordinating afforda

• Brains and where else? Mapping theories of consciousness to unconventional embodiments

  Rouleau and Levin's 2026 analysis in *Philosophical Transactions of the Royal Society A* (384, issue 2320) demonstrates that the functional and operational principles underlying most contemporary theo