Behaviorist approaches to investigating memory and learning: A primer for synthetic biology and bioengineering

Related work— refs + corpus + external arXiv

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

• The biogenic approach to cognition

  in corpus

  2005
  ≈ 78%
• Modeling Human Behavior Part I -- Learning and Belief Approaches

  Andrew Fuchs and Andrea Passarella and Marco Conti

  2022
  ≈ 77%
• Technological Approach to Mind Everywhere: An Experimentally-Grounded Framework for Understanding Diverse Bodies and Minds

  in corpus

  2022
  ≈ 77%
• Discovering Latent States for Model Learning: Applying Sensorimotor Contingencies Theory and Predictive Processing to Model Context

  Nikolas J. Hemion

  2016
  ≈ 77%
• Artificially intelligent agents in the social and behavioral sciences: A history and outlook

  Milena Tsvetkova Petter Holme

  2025
  ≈ 76%
• Diagnosing AI Explanation Methods with Folk Concepts of Behavior

  Jasmijn Bastings, Sebastian Gehrmann, Yoav Goldberg, Katja Filippova Alon Jacovi

  2023
  ≈ 76%
• Cognitive science as a source of forward and inverse models of human decisions for robotics and control

  Mark K. Ho and Thomas L. Griffiths

  2021
  ≈ 76%
• Learning Biomolecular Motion: The Physics-Informed Machine Learning Paradigm

  Aaryesh Deshpande

  2025
  ≈ 75%
• Exploring Cognition through Morphological Info-Computational Framework

  Gordana Dodig-Crnkovic

  2024
  ≈ 75%
• Computational Theories of Curiosity-Driven Learning

  Pierre-Yves Oudeyer

  2018
  ≈ 75%
• The modularity of action and perception revisited using control theory and active inference

  Manuel Baltieri and Christopher L. Buckley

  2022
  ≈ 75%
• Ideas from Developmental Robotics and Embodied AI on the Questions of Ethics in Robots

  Alexandre Pitti

  2018
  ≈ 75%
• Future of Brain Health: From Developmental Insights to Clinical Translation

  Martin G Frasch, Eduardo T C\'anepa, Gerlinde A.S. Metz, Marta Cristina Antonelli, Sheehan D. Fisher and Bea R.H. Van den Bergh Mariela Chertoff

  2025
  ≈ 75%
• The scaling of goals via homeostasis: an evolutionary simulation, experiment and analysis

  Johanna Bischof, Jennifer V. LaPalme, and Michael Levin Leo Pio-Lopez

  2022
  ≈ 75%
• How to avoid ethically relevant Machine Consciousness

  Aleksander Lodwich

  2016
  ≈ 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%
• Learning in embodied action-perception loops through exploration

  Daniel Y. Little and Friedrich T. Sommer

  2011
  ≈ 75%
• Generalizing frameworks for sentience beyond natural species

  in corpus
  ≈ 74%
• Brains and where else? Mapping theories of consciousness to unconventional embodiments

  in corpus

  2026
  ≈ 74%
• Multiple ways to implement and infer sentience

  in corpus
  ≈ 74%
• Living Things Are Not (20th Century) Machines: Updating Mechanism Metaphors in Light of the Modern Science of Machine Behavior

  in corpus

  2021
  ≈ 74%
• Collective intelligence: A unifying concept for integrating biology across scales and substrates

  in corpus

  2024
  ≈ 73%
• AI: a Bridge toward Diverse Intelligence and Humanity’s Future

  in corpus

  2024
  ≈ 73%
• Active inference on discrete state-spaces: a synthesis

  in corpus

  2020
  ≈ 73%
• The computational boundary of a 'self': developmental bioelectricity drives multicellularity and scale-free cognition

  in corpus

  2019
  ≈ 73%
• Developmental Bioelectricity: the cognitive glue enabling evolutionary scaling from physiology to mind

  in corpus

  2023
  ≈ 73%
• Darwin's agential materials: evolutionary implications of multiscale competency in developmental biology

  in corpus

  2023
  ≈ 72%
• Consciousness in Artificial Intelligence: Insights from the Science of Consciousness

  in corpus

  2023
  ≈ 72%
• A Free energy principle for the brain (lecture summary)

  in corpus

  2008
  ≈ 72%
• Self-Improvising Memory: A Perspective on Memories as Agential, Dynamically Reinterpreting Cognitive Glue

  in corpus

  2024
  ≈ 72%

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Cited by (3)

• Developmental Bioelectricity: the cognitive glue enabling evolutionary scaling from physiology to mind

  Developmental bioelectricity—the network of ion channels, gap junctions, and neurotransmitter-mediated Vmem (membrane potential) dynamics operating across all body cells, not just neurons—functions as

• Cellular signaling pathways as plastic, proto-cognitive systems: Implications for biomedicine
• Collective intelligence: A unifying concept for integrating biology across scales and substrates

  Collective intelligence, understood as William James' capacity to reach the same goal by different means, operates not only in beehives and ant colonies but as a scale-free organizing principle across