2018
DOI: 10.1520/jte20160265
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Simulated Road Profiles According to ISO 8608 in Vibration Analysis

Abstract: Nowadays, synthetic longitudinal road profiles based on an ISO 8608 road classification are used for simulation purposes to solve various tasks in vibration analysis of mechanical and civil structures and road-vehicle-driver interaction system. Standard ISO 8608 specifies road classification of longitudinal road profiles based on vertical displacement power spectral density (PSD). PSD represented on logarithmic scales is characterized by two parameters of a straight line, an unevenness index and waviness. The … Show more

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Cited by 100 publications
(55 citation statements)
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“…Neither the curves, nor the cant on the roads, nor the accelerations or decelerations of the vehicle are taken into account, all these conditions would only increase the power generated by the EHSA. Using the same approach as Múčka et al [42], it can be deduced that the power that would be generated circulating at 120 km/h with the Ford Focus in the case of German roads (G q (n 0 ) = 100•10 −6 m 3 ) would be between 350-500 W, for Chinese roads (G q (n 0 ) = 270•10 −6 m 3 ) it would increase to 400-700 W, and for roads in Eastern Europe (G q (n 0 ) = 400•10 −6 m 3 ) it would be between 700-1200 W. Keep in mind that in all these results, the vehicle is driving in a straight line at a constant speed. Neither the curves, nor the cant on the roads, nor the accelerations or decelerations of the vehicle are taken into account, all these conditions would only increase the power generated by the EHSA.…”
Section: Resultsmentioning
confidence: 99%
“…Neither the curves, nor the cant on the roads, nor the accelerations or decelerations of the vehicle are taken into account, all these conditions would only increase the power generated by the EHSA. Using the same approach as Múčka et al [42], it can be deduced that the power that would be generated circulating at 120 km/h with the Ford Focus in the case of German roads (G q (n 0 ) = 100•10 −6 m 3 ) would be between 350-500 W, for Chinese roads (G q (n 0 ) = 270•10 −6 m 3 ) it would increase to 400-700 W, and for roads in Eastern Europe (G q (n 0 ) = 400•10 −6 m 3 ) it would be between 700-1200 W. Keep in mind that in all these results, the vehicle is driving in a straight line at a constant speed. Neither the curves, nor the cant on the roads, nor the accelerations or decelerations of the vehicle are taken into account, all these conditions would only increase the power generated by the EHSA.…”
Section: Resultsmentioning
confidence: 99%
“…In order to determine the periodic vibrations of the body, the correlation function was proposed. These functions belong to the classic methods of analysis of deterministic signals disturbed by random noise [ 9 , 31 ]. To determine the periodicity of the analyzed signal in relation to time t , the autocorrelation function R xx ( τ ), described by Equation (2), is used to identify the periodicities hidden in the noise of the analyzed acceleration of the body.…”
Section: Measurement Signal Analysismentioning
confidence: 99%
“…To determine the periodicity of the analyzed signal in relation to time t , the autocorrelation function R xx ( τ ), described by Equation (2), is used to identify the periodicities hidden in the noise of the analyzed acceleration of the body. It allows to determine the time consistency between adjacent fragments of the analyzed process (signal), shifted by different time values ( t ) and ( t + τ ) [ 9 ]. By measuring the amplitude in two moments, separated by a delay ( τ ), and multiplying the obtained values and averaging them after the recording time, statistical information about the signal periodicity was obtained.…”
Section: Measurement Signal Analysismentioning
confidence: 99%
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“…The vehicle will be excited by a random signal added to a harmonic input function that will simulate a road roughness for a poor unpaved road and the oscillations present in the baja SAE track. The use of random signal is a common approach for suspension optimization [25], leading to a better understanding of shock absorber performance [15] and is widely used in vibration evaluation [20]. Finally, results will be compared to [26] to evaluate the level of vibration for different shocks configurations and understand how these affect vehicle ride.…”
Section: Introductionmentioning
confidence: 99%