Analysis of vibration propagation in the human body

Abstract. The human vibration is a multi-disciplinary subject involving many disciplines. A special area in the field of vibration research is the transport system. The paper presents the results of preliminary tests, the aim of which was to analyze the propagation of vibrations forced by the movement of the vehicle floor on persons sitting in a car. During research vibration were registered in measurement nodes, in which the composition always included the signal of oscillation of the enforcing plate and specific locations on the human body. This paper presents results of vibration recorded on the extinction plate and on the head of the passenger.


Introduction
Studies on the impact of vibrations on humans are conducted by numerous research centers.In the field of safety at workplace, many standards have been developed regarding this issue and the assessment of the permissible values of vibrations affecting humans.One of the standards that describes vibration is the ISO 2631 standard [5].Its Polish equivalent is the PN-EN 14253 + A1: 2011 standard [6].ISO 2631 is an international standard that describes test methodology and methods of protecting the human body exposed to vibrations.Also, EU provide legislation on vibration-exposed workers according to the European Directive 2002/44/EC on mechanical vibration [7].
A special area in the field of vibration research is the transport system [1][2][3][4].Drivers and passengers are exposed to various types of vibrations, which depending on the severity and frequency affect the comfort of the traveler and also indirectly on safety.Vibrations affecting humans can cause imbalances, muscle pain, nausea, vomiting and dizziness.They very often resemble the symptoms of motion sickness.As it is described in [8] the sense of vibration (in scale from pleasure to pain) depends on many factors including characteristics of exposed person.Therefore, studies of human response to vibration are complicate.
Mechanical vibrations, as oscillatory motion, were divided into two types: • General vibrations transmitted by legs, pelvis, back to the human body (WBV-whole-body vibration), • Local vibrations, which are transmitted through the hands directly to the human body (HTW-hand-transmitted vibration).
The driver and passengers staying in the vehicle not only feel the vibrations caused by the inequality of the road or additional elements of its infrastructure (e.g.speed bumps), but also resulting from the working state of the vehicle e.g.vibrations transmitted by the engine, tires, exhaust system or transmission system [9][10][11].It should be noted that people who are exposed to long vibration exposure in their daily work, e.g. machine operators, especially those using work vibrations (e.g.concrete compactors, rollers, drills, hammers) are at high risk for many diseases.Long-term occupational exposure to intense WBV is associated with an increased risk for disorders of the lumbar spine and the connected nervous system [12].
The knowledge on human vibration is a multi-disciplinary subject involving engineering, ergonomics, medicine, physics and many more disciplines [8].Thus, if the task is to conduct

Results
The scope of the tests included a series of measurements for accepted measuring nodes for vibrations from 1 Hz to 35 Hz, every 1 Hz.The article presents sample results of registered vibration accelerations.As an example of the analysis of vibration propagation to the human body, the vibration patterns recorded in the measuring node were shown: the extinction plate (floor of the vehicle) and the head of the passenger.Due to the very large impact of vibrations affecting the human head on psychomotor skills and the sense of comfort of the driver, the assumed path of vibration propagation seems to be very important.

Conclusions
The paper presents the results of preliminary tests, the aim of which was to analyze the propagation of vibrations forced by the movement of the vehicle floor on persons sitting in a car.According to the vibration mechanics, the path of propagation through the feet and lower limbs, the loins and the chest to the head was determined.This choice was dictated by an attempt to assess what vibrations may affect in the vicinity of vital human organs.
On the basis of the overall analysis of the test results, it was determined that the maximum values of recorded vibration accelerations on the head of the subjects were respectively: vertical vibrations -12 m/s², transversal ca.2.5 m/s² and longitudinal approx.6 m/s².While the maximum vibrations recorded on the exciter plate were: vertical vibrations -70 m/s², transversal vibrations around 2.5 m/s² and longitudinal vibrations -around 4 m/s².Due to research methodology and frequency scope of forced vibration it was noticed unsteady longitudinal, transverse movement of head for the higher frequencies, see at Fig. 4.
As part of further research, an analysis of vibration dynamics with the definition of frequency response and an attempt to assess the subjective and objective effects of vibration on human beings is assumed.

Fig. 1 .
View of the test bench and the author during the tests