The Universal Dynamic Complexity as Extended Dynamic Fractality: Causally Complete Understanding of Living Systems Emergence and Operation

The unreduced description of any real system with interaction reveals natural emergence of multiple, incompatible system versions, or realisations, formed by dynamic entanglement of the interacting system components and forced to permanently replace each other in a causally random order, which permits one to define and calculate thea prioriprobabilities of their emergence, their internal structure, and the unreduced system complexity. The dynamically redundant and internally entangled realisations form the hierarchical, dynamically probabilistic and self-developing structure of any real system called extended dynamical fractal. Contrary to the conventional fractality, it gives the exact representation of any kind of structure/behaviour, including the specific living system properties, and therefore provides, starting from a high enough level of its complexity, the causally complete understanding of the phenomenon of life and qualitatively new applications in biology and medicine.