Philosophy:Fractal catalytic model
From HandWiki
The fractal catalytic model (also referred to as the fractal catalytic theory or soliton-catalytic model) - proposed by Christopher James Davia and adopted in the research of Carnegie Mellon University (Lee and Marge Gregg) Professor of Psychology Patricia Carpenter - is a “theory of cognition grounded in metabolism” [1] which identifies enzymatic catalysis (taking place in cells) as a “prototypical process” [2] applying at all levels of scale in biological organisms.
The theory asserts that energy and structure (also information) become synonymous in complex biological structures via a self-organizing, multiple-scale catalytic process (thus: bioenergetics = bioinformatics) – the proposed mechanism involving the catalytic action of soliton propagation in (biological) excitable media.[2] The theory resolves problems (particularly problems associated with brain function) arising from an assumed distinction between function and metabolism. The theory attempts to show that no such distinction exists; thus: FUNCTION = METABOLISM = CATALYSIS.[2]
Developed initially within the field of embodied cognition[3][4] it has been referenced in such areas as semiotics,[5] artificial intelligence[6] and theories of life’s origins.[7]
References
- ↑ Davia, C.J. (2002). "Minds, Brains & Catalysis: A theory of cognition grounded in metabolism". Dept of Psychology, Carnegie Mellon University, Pittsburgh, PA 15213. http://www.psy.cmu.edu:16080/~davia/mbc/. Retrieved 2012-03-06. – also alternately titled: “Quantum Ontology: Minds, Brains, and Catalysts”.
- ↑ 2.0 2.1 2.2 Davia, C.J (June 2006), "Life, Catalysis and Excitable Media: A Dynamic Systems Approach to Metabolism and Cognition", in Tuszynski, J.A, The Emerging Physics of Consciousness (The Frontiers Collection), Springer, pp. 255–292, ISBN 978-3540238904, https://www.springer.com/physics/quantum+physics/book/978-3-540-23890-4
- ↑ Carpenter, P.A; Davia, C.J. (2006). "A catalytic theory of embodied mind". Proceedings of the 28th Annual Conference of the Cognitive Science Society (2006): 1080–1085. http://csjarchive.cogsci.rpi.edu/proceedings/2006/docs/p1080.pdf.
- ↑ Carpenter, P.A.; Davia, C.J.; Vimal, R (2009). "Catalysis, Perception and Consciousness". New Mathematics and Natural Computation (NMNC) 5 (1): 287–306. doi:10.1142/s1793005709001295. https://cloudfront.escholarship.org/dist/prd/content/qt0200z25p/qt0200z25p.pdf?t=mo5tfe.
- ↑ Thibault, P.J (Dec 2011). "Languaging Behaviour as Catalytic Process: Steps Towards a Theory of Living Language (Parts 1 & 2)". The Public Journal of Semiotics 3 (2): 2–151. doi:10.37693/pjos.2011.3.8833.
- ↑ The CORVUS II / SCARI (Self-organizing Curious Anticipatory Architectures for Robust Intelligence) project mounted by the Cognitive Models subgroup of Texas A&M University-Commerce (Principal Investigator Derek Harter, Ph.D.) existed to “build and understand models of cognition based on (the) theory of intelligence as a self-organizing catalytic process” via the implementation of a “curious infrastructure built on top of a distributed, heterogeneous grid computing environment”. National Science Foundation (NSF), $450,000. See Harter, D (Nov 2006). Catalytic Self-Organization of Hierarchies: A Dynamical Systems View of Cognition. Presentation for the 2006 Northeast Texas INNS/MIND Workshop on Goal Directed Neural Systems. UT-Arlington, TX for a brief summary.
- ↑ Mitra-Delmotte, G; Mitra, A.N (2012). "Softening the "crystal-scaffold" for life's emergence". Physics Research International 2012 (232864): 1. doi:10.1155/2012/232864.
Bibliography
- Arnold, R (May 2010), "Empathic intelligence in educational therapy: An international perspective", in Adelizzi, Ficksman, The clinical practice of educational therapy: a teaching model, Routledge, pp. 65–79, ISBN 978-0-415-99856-7, http://www.routledge.com/books/details/9780415998574/
- Bruzzo, A.A (2007). "Self: An adaptive pressure arising from self-organization, chaotic dynamics and neural Darwinism". Journal of Integrative Neuroscience 6 (4): 541–566. doi:10.1142/s0219635207001659. PMID 18181268.
- Casassus, J (April 2006), La educación del ser emocional. Segunda edición, Ediciones Castillo, ISBN 978-9702008194, https://books.google.com/books?id=mjd8G_T6M3IC
- Freeman, W.J; Vitiello, S.L; Brinton, K; Bada, J.L (June 2006). "Nonlinear brain dynamics as macroscopic manifestation of underlying many-body field dynamics". Physics of Life Reviews 3 (2): 93–118. doi:10.1016/j.plrev.2006.02.001. Bibcode: 2006PhLRv...3...93F.
- Glazebrook, J.F (Oct 2009). "Rate distortion manifolds as model spaces for cognitive information". Informatica 33 (3). http://www.freepatentsonline.com/article/Informatica/219450355.html.
- Hollis, J; Kloos, H; Van Orden, C.J (2009), "Origins of order in cognitive activity", in Guastello, S. J.; Koopmans, M.; Pincus, D., Chaos and Complexity in Psychology: The Theory of Nonlinear Dynamical Systems, Cambridge, M.A: Cambridge University Press, pp. 206–241, ISBN 9780521887267, https://docs.google.com/viewer?a=v&q=cache:_Uf_gtiLnJgJ:www.uc.edu/content/dam/uc/ccrl/docs/publications/Hollis_et_al._2009.pdf+Origins+of+order+in+cognitive+activity+van+orden&hl=en&gl=uk&pid=bl&srcid=ADGEEShQMFDjLm76NkIVa1eInAWGzOrO2h8xQrZKXKMwNwJ0PT0hWjstci8ydQCmT05oAPAF1M9uvv7ao-DDW8X22cDfIo4J5yANg5k9yESW0rAhCvtDpc7fi2F-CkPc2xxfuWrUlsxS&sig=AHIEtbS6FB8mB5dLwTGWf8AjLyvyqn-y0A
- Lewis, E.R; MacGregor, R.J (2010). "A natural science approach to consciousness". Journal of Integrative Neuroscience 9 (2): 153–191. doi:10.1142/s0219635210002202. PMID 20589952. http://www.eecs.berkeley.edu/~lewis/LewisMacGregorII.pdf.
- Macgregor, R.J (2008). "Consciousness and the structure of matter". Journal of Integrative Neuroscience 7 (1): 75–116. doi:10.1142/s0219635208001733. PMID 18431819.
- Stephen, D.G; Van Orden, G.C (Jan 2012). "Searching for General Principles in Cognitive Performance: Reply to Commentators". Topics in Cognitive Science 4 (1): 94–102. doi:10.1111/j.1756-8765.2011.01171.x.
- Van Orden, G.C (Sep 2010). "Voluntary Performance". Medicina (Kaunas) 46 (9): 581–594. doi:10.3390/medicina46090083. http://medicina.kmu.lt/1009/1009-02e.pdf.
- Van Orden, G.C (2008). "Peirce's abduction and cognition as we know it". Journal of Experimental and Theoretical Artificial Intelligence 20 (3): 219–229. doi:10.1080/09528130802319227.
- Van Orden, C.J; Kloos, H; Wallot, S (May 2011), "Living in the Pink: Intentionality, Wellbeing, and Complexity", in Hooker, Handbook of the Philosophy of Science - Vol 10: Philosophy of Complex Systems, 10, North Holland, pp. 639–684, ISBN 978-0-444-52076-0, http://store.elsevier.com/Philosophy-of-Complex-Systems/isbn-9780444520760/
- Van Rooij, M (2011). "It's about Space, It's about Time, Neuroeconomics and the Brain Sublime". The Journal of Economic Perspectives 25 (4): 31–55. doi:10.1257/jep.25.4.31. http://www.aeaweb.org/jep/app/2504_VanOrden_app.pdf.
- Villorba, F; Van Piaggio, V.E (2010). "The role of mitochondria and mit-DNA in Oncogenesis". Quantum Biosystems 2 (1): 250–281. http://www.quantumbiosystems.org/admin/files/QBS%202(1)%20250-281.pdf.
- Vimal, R (2009), "Dual aspect framework for consciousness and its implications", in Derfer; Wang; Weber, The Roar of Awakening: A Whiteheadian Dialogue Between Western Psychotherapies and Eastern Worldviews, Ontos Verlang, pp. 37–70, ISBN 978-386838-039-2, https://books.google.com/books?id=D69Li9vJudUC
- Vimal, R (2009). "Meanings Attributed to the Term Consciousness: An Overview". Journal of Consciousness Studies 16 (5): 9–27. http://www.ingentaconnect.com/content/imp/jcs/2009/00000016/00000005/art00002.
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