The article presents the methods of analysis of the dynamics of bioelectrical activity of the flexor muscles of the little finger of his right hand, as a reaction to different static compressive force dynamometer. The main research methods used deterministic and stochastic methods and methods of chaos, self-organization to describe complex biological systems. The comparative analysis of calculating the parameters of the results of research. Analysis of the recorded parameters and evaluation of randomness in the recorded signal bioelectrical activity of muscles showed that after an increase in the static load electrical activity increases dramatically. The high efficiency of the method in the theory of chaos, self-organization in the assessment of the neuromuscular system of the person. The results enable us to determine the level of ability to perform predetermined operations under the influence of static load. Since the statistical approach is a zero efficiency, the methods of chaos theory, self-organization have a clear advantage.
muscle electrical activity, quasi-attractor, chaos, self-organization criterion.
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