Movement and Man at the end of the Random Walks

TL;DR

This paper explores the non-linear fractal nature of internal human body structures and movements, linking microscopic biological processes to macroscopic physical activities through the concept of Brownian dynamics.

Contribution

It extends the understanding of human movement by connecting internal fractal structures and signals to external physical behaviors via Brownian motion models.

Findings

Internal body structures exhibit fractal and fractional Brownian motion characteristics.

Human movements at macroscopic levels can be modeled using Brownian dynamics.

The study bridges microscopic biological signals with macroscopic physical activities.

Abstract

In this paper, it is presented the well known aspect of non linearity of internal human body structures. Similarity on the basis of the Fractional Brownian Motion from the static ones, as the geometrical fractals like the Intestine and placenta linings, Airways in lungs, Arterial system in kidneys and so on. To the kinematics ones, as the temporal fractals like Heart beat sequences, Electroencephalograms, Respiratory tidal volumes, DNA sequences mapping and so on. But this internal well known knowledge is astonishing extendible from the internal, through the Brownian basis of the muscular contraction, to the macroscopic external human movements, like the orthostatic equilibrium, gait, running training, judo contest and soccer, basketball, football or water polo games, by means of the ubiquitous continuous presence; the Brownian Dynamics.