Результаты исследований: Научные публикации в периодических изданиях › статья › Рецензирование
Модельное изучение влияния многосуставных мышц на частотные характеристики тела человека. / Трегубов, Владимир Петрович; Егорова, Надежда Константиновна.
в: Vestnik Sankt-Peterburgskogo Universiteta, Prikladnaya Matematika, Informatika, Protsessy Upravleniya, Том 16, № 2, 06.2020, стр. 150-164.Результаты исследований: Научные публикации в периодических изданиях › статья › Рецензирование
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TY - JOUR
T1 - Модельное изучение влияния многосуставных мышц на частотные характеристики тела человека
AU - Трегубов, Владимир Петрович
AU - Егорова, Надежда Константиновна
N1 - Publisher Copyright: © Санкт-Петербургский государственный университет, 2020 Copyright: Copyright 2020 Elsevier B.V., All rights reserved.
PY - 2020/6
Y1 - 2020/6
N2 - The analysis of previous works devoted to experimental studies of the frequency characteristics of the body of a sitting human body subjected to vibration and the construction of its mechanical models is conducted. It is noted that in most cases measurements of vibration are made on the seat and the head of the person that allows us to build a transmission function from the seat to the head. In doing so, the supposed internal structure of the human mechanical model remained unconfirmed. Under these conditions, it was emphasized that vibration measurements should be performed on all modeled parts of a human body. In addition, from an anatomical point of view, the main contribution to the mechanical properties of the body of a sitting person is made by the multi-jointed muscles of the spine. However, this important fact has not been taken into account yet. In this regard, the task was set to study the influence of multi-articular muscles on the frequency properties of the body of a sitting person. For this purpose, a number of mechanical models were constructed in which multi-jointed muscles were modeled by multi-link viscoelastic connections. In particular, on the simplest model with two degrees of freedom it was shown how the imposition of two-link connections in addition to a single-link one leads to the appearance of an anti-resonant frequency on the upper mass, that is impossible in their absence. A mechanical model with an arbitrary number of degrees of freedom with multi-link connections is given, for which the formulas of the transfer function and the amplitude-frequency response for the upper mass are obtained. In addition, we consider a mechanical model with an arbitrary set of multi-link connections. As an example, the results of numerical calculation of the frequency response for a mechanical model with eight degrees of freedom in the presence and absence of multi-link connections are given.
AB - The analysis of previous works devoted to experimental studies of the frequency characteristics of the body of a sitting human body subjected to vibration and the construction of its mechanical models is conducted. It is noted that in most cases measurements of vibration are made on the seat and the head of the person that allows us to build a transmission function from the seat to the head. In doing so, the supposed internal structure of the human mechanical model remained unconfirmed. Under these conditions, it was emphasized that vibration measurements should be performed on all modeled parts of a human body. In addition, from an anatomical point of view, the main contribution to the mechanical properties of the body of a sitting person is made by the multi-jointed muscles of the spine. However, this important fact has not been taken into account yet. In this regard, the task was set to study the influence of multi-articular muscles on the frequency properties of the body of a sitting person. For this purpose, a number of mechanical models were constructed in which multi-jointed muscles were modeled by multi-link viscoelastic connections. In particular, on the simplest model with two degrees of freedom it was shown how the imposition of two-link connections in addition to a single-link one leads to the appearance of an anti-resonant frequency on the upper mass, that is impossible in their absence. A mechanical model with an arbitrary number of degrees of freedom with multi-link connections is given, for which the formulas of the transfer function and the amplitude-frequency response for the upper mass are obtained. In addition, we consider a mechanical model with an arbitrary set of multi-link connections. As an example, the results of numerical calculation of the frequency response for a mechanical model with eight degrees of freedom in the presence and absence of multi-link connections are given.
KW - механическая система, аплитудно-частотная характеристика,нецелое число степеней свободы, резонансная частота.
UR - http://www.scopus.com/inward/record.url?scp=85091206696&partnerID=8YFLogxK
U2 - 10.21638/11701/SPBU10.2020.207
DO - 10.21638/11701/SPBU10.2020.207
M3 - статья
AN - SCOPUS:85091206696
VL - 16
SP - 150
EP - 164
JO - ВЕСТНИК САНКТ-ПЕТЕРБУРГСКОГО УНИВЕРСИТЕТА. ПРИКЛАДНАЯ МАТЕМАТИКА. ИНФОРМАТИКА. ПРОЦЕССЫ УПРАВЛЕНИЯ
JF - ВЕСТНИК САНКТ-ПЕТЕРБУРГСКОГО УНИВЕРСИТЕТА. ПРИКЛАДНАЯ МАТЕМАТИКА. ИНФОРМАТИКА. ПРОЦЕССЫ УПРАВЛЕНИЯ
SN - 1811-9905
IS - 2
ER -
ID: 72717146