Volume 13 · Number 1 · Pages 130–131
How to Understand Brain-Body-Environment Interactions? Toward a Systemic Representationalism

Frédéric Alexandre

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Open peer commentary on the article “Missing Colors: The Enactivist Approach to Perception” by Adrián G. Palacios, María-José Escobar & Esteban Céspedes. Upshot: The target article discusses the influence of the enactivist account of perception in computer science, beyond subjectivism and objectivism. I suggest going one step further and introduce our VirtualEnaction platform, proposing a federative systemic view for brain-body-environment interaction for this analysis.


Alexandre F. (2017) How to understand brain-body-environment interactions? Toward a systemic representationalism. Constructivist Foundations 13(1): 130–131. http://constructivist.info/13/1/130

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Buzsaki G., Peyrache A. & Kubie J. (2014) Emergence of cognition from action. In: Bargmann C., Bavelier D., Sejnowski T., Stewart D. & Stillman B. (eds.) Cognition. Proceedings of the Cold Spring Harbor Symposia on Quantitative Biology, Volume 79. Cold Spring Harbor Laboratory Press, Cold Spring Harbor NY: 41–50. http://cepa.info/4365
Carrere M. & Alexandre F. (2015) A Pavlovian model of the amygdala and its influence within the medial temporal lobe. Frontiers in Systems Neuroscience 9: 41. ▸︎ Google︎ Scholar
Carrere M. & Alexandre F. (2016) Modeling the sensory roles of noradrenaline in action selection. In: Boucenna S., Hafner V. & Pitti A. (eds.) Proceedings of the Sixth Joint IEEE International Conference on Developmental Learning and Epigenetic Robotics. IEEE, Cergy: 174–179. ▸︎ Google︎ Scholar
Denoyelle N., Carrere M., Pouget F., Viéville T. & Alexandre F. (2015) From biological to numerical experiments in systemic neuroscience: A simulation platform. In: Londral A. R. & Encarnação P. (eds.) Advances in neurotechnology, electronics and informatics. Springer, New York: 1–17. ▸︎ Google︎ Scholar
Denoyelle N., Pouget F., Viéville T. & Alexandre F. (2014) VirtualEnaction: A Platform for Systemic Neuroscience Simulation. In: Londral A. R. & Encarnacao P. (eds.) International Congress on Neurotechnology, Electronics and Informatics. NSTICC Press, Rome: 1–8. ▸︎ Google︎ Scholar
Fix J., Rougier N. P. & Alexandre F. (2011) A dynamic neural field approach to the covert and overt deployment of spatial attention. Cognitive Computation 3: 279–293. ▸︎ Google︎ Scholar
Friston K. (2010) The free-energy principle: A unified brain theory? Nature reviews. Neuroscience 11(2): 127–138. ▸︎ Google︎ Scholar
Froese T. & Ziemke T. (2009) Enactive artificial intelligence: Investigating the systemic organization of life and mind. Artificial Intelligence 173(3–4): 466–500. http://cepa.info/279
Grossberg S. & Raizada R. D. S. (2000) Contrast-sensitive perceptual grouping and object-based attention in the laminar circuits of primary visual cortex. Vision Research 40(10–12): 1413–1432. ▸︎ Google︎ Scholar
Grossberg S. & Versace M. (2008) Spikes, synchrony, and attentive learning by laminar thalamocortical circuits. Brain Research 1218: 278–312. ▸︎ Google︎ Scholar
Varela F. J., Thompson E. & Rosch E. (1991) The embodied mind: Cognitive science and human experience. MIT Press, Cambridge MA. ▸︎ Google︎ Scholar

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