This study investigated the human subjective response to steering wheel vibration of the type caused by a four-cylinder diesel engine idle in passenger cars. Vibrotactile perception was assessed using sinusoidal amplitude-modulated vibratory stimuli of constant energy level (r.m.s. acceleration, 0.41 m/s 2) having a carrier frequency of 26 Hz (i.e. engine firing frequency) and modulation frequency of 6.5 Hz (half-order engine harmonic). Evaluations of seven levels of modulation depth parameter m (0.0, 0.1, 0.2, 0.4, 0.6, 0.8, and 1.0) were performed in order to define the growth function of human perceived disturbance as a function of amplitude modulation depth. Two semantic descriptors were used (unpleasantness and roughness) and two test methods (the Thurstone paired-comparison method and the Borg CR-10 direct evaluation scale) for a total of four tests. Each test was performed using an independent group of 25 individuals. The results suggest that there is a critical value of modulation depth m = 0.2 below which human subjects do not perceive differences in amplitude modulation and above which the stimulus-response relationship increases monotonically with a power function. The Stevens power exponents suggest that the perceived unpleasantness is non-linearly dependent on modulation depth m with an exponent greater than 1 and that the perceived roughness is dependent with an exponent close to unity.
Human subjective response to steering wheel vibration caused by diesel engine idle
2005
12 Seiten, 33 Quellen
Aufsatz (Zeitschrift)
Englisch
Human subjective response to steering wheel vibration caused by diesel engine idle
SAGE Publications | 2005
|Human subjective response to steering wheel vibration caused by diesel engine idle
Kraftfahrwesen | 2005
|Human subjective response to steering wheel vibration caused by diesel engine idle
Online Contents | 2005
|Human perception of diesel engine idle vibration
Kraftfahrwesen | 2004
|Analysis of variations in diesel engine idle vibration
SAGE Publications | 2003
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