dorsal/arxiv
View SchemaThe Universal Dynamic Complexity as Extended Dynamic Fractality: Causally Complete Understanding of Living Systems Emergence and Operation
| Authors | Andrei P. Kirilyuk |
|---|---|
| Categories | |
| ArXiv ID | physics/0305119 |
| URL | https://arxiv.org/abs/physics/0305119 |
| Journal | Fractals in Biology and Medicine, Vol. III, ed. by G.A. Losa, D. Merlini, T.F. Nonnenmacher, and E.R. Weibel (Birkhauser, Basel, 2002), p. 271-284 |
Abstract
The universal concept of complexity by the dynamic redundance paradigm and the ensuing concept of extended dynamic fractality (physics/9806002) are applied here to higher levels of complexity corresponding to living systems. After recalling the framework of unreduced dynamic complexity and dynamically probabilistic fractality (see also physics/0211071), we concentrate on the novelties they propose for the case of living systems with respect to the conventional, dynamically single-valued theory. The phenomenon of life can now be demystified and consistently understood as a particular case of the universal symmetry of complexity realised by unreduced complexity transformation from dynamic information into (extended) entropy that preserves the total complexity amount and involves its high enough levels. This intrinsically creative, and therefore realistic, version of bio-physical 'reductionism' reveals the explicit, dynamical source of adaptability and qualitatively new entity emergence and leads to essential, well substantiated changes in the strategy of research in such fields as evolution theory, genetics and medicine, allowing for the unique and efficient solution of the accumulated 'difficult' problems.
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"abstract": "The universal concept of complexity by the dynamic redundance paradigm and\nthe ensuing concept of extended dynamic fractality (physics/9806002) are\napplied here to higher levels of complexity corresponding to living systems.\nAfter recalling the framework of unreduced dynamic complexity and dynamically\nprobabilistic fractality (see also physics/0211071), we concentrate on the\nnovelties they propose for the case of living systems with respect to the\nconventional, dynamically single-valued theory. The phenomenon of life can now\nbe demystified and consistently understood as a particular case of the\nuniversal symmetry of complexity realised by unreduced complexity\ntransformation from dynamic information into (extended) entropy that preserves\nthe total complexity amount and involves its high enough levels. This\nintrinsically creative, and therefore realistic, version of bio-physical\n\u0027reductionism\u0027 reveals the explicit, dynamical source of adaptability and\nqualitatively new entity emergence and leads to essential, well substantiated\nchanges in the strategy of research in such fields as evolution theory,\ngenetics and medicine, allowing for the unique and efficient solution of the\naccumulated \u0027difficult\u0027 problems.",
"arxiv_id": "physics/0305119",
"authors": [
"Andrei P. Kirilyuk"
],
"categories": [
"physics.gen-ph"
],
"journal_ref": "Fractals in Biology and Medicine, Vol. III, ed. by G.A. Losa, D.\n Merlini, T.F. Nonnenmacher, and E.R. Weibel (Birkhauser, Basel, 2002), p.\n 271-284",
"title": "The Universal Dynamic Complexity as Extended Dynamic Fractality: Causally Complete Understanding of Living Systems Emergence and Operation",
"url": "https://arxiv.org/abs/physics/0305119"
},
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