Add to ORKGAbstract: Differences in vibration magnitude required for a human subject to differentiate whole-body vertical sinusoidal vibrations, difference thresholds for amplitude of sinusoidal vibration, have been determined at a vibration magnitude of 0.7 m/s2 r.m.s. at five octave band center frequencies from 4 to 63 Hz and at 80 Hz. The median difference thresholds of 16 male subjects seated on a flat rigid seat were found between 0.037 and 0.046 m/s2 r.m.s. at the frequencies used in this study. The subjects tended to be more sensitive to the change in vibration magnitude at 4 Hz than at 16, 31.5 and 63 Hz and less sensitive to the magnitude difference at 31.5 Hz than at 4, 8 and 80 Hz. The median relative difference thresholds, Weber’s ratios,...
The frequency content of a mechanical shock is not confined to its fundamental frequency, so it was ...
Apparent mass frequency response functions of the seated human body have been measured with random v...
Standards assume vibration discomfort depends on the frequency and direction of whole-body vibration...
Difference thresholds for seated subjects exposed to whole-body vertical sinusoidal vibration have b...
When seeking to reduce vibration in transport it is useful to know how much reduction is needed for ...
The assessment of building vibration with respect to human response requires knowledge of the influe...
The experiment described in this paper was designed to evaluate the differences in discomfort and bo...
It is currently assumed that the same frequency weightings, derived from studies of vibration discom...
Human bodies are often exposed to vertical vibrations when they are in the workplace or on vehicles....
Vibration experienced in transport and in buildings can yield discomfort or annoyance if the vibrati...
THE sensation of vibration is the subjective experience of an individual when a series of rapidly re...
The transmissibility of 12 seated subjects to sinusoidal vertical vibration was measured at 12 frequ...
The frequency dependence of discomfort caused by vertical mechanical shocks has been investigated wi...
Few studies have compared the discomfort caused by vibration in different directions, and few have i...
In this study, an experiment was conducted to determine frequency discrimination for sinusoidal vert...
The frequency content of a mechanical shock is not confined to its fundamental frequency, so it was ...
Apparent mass frequency response functions of the seated human body have been measured with random v...
Standards assume vibration discomfort depends on the frequency and direction of whole-body vibration...
Difference thresholds for seated subjects exposed to whole-body vertical sinusoidal vibration have b...
When seeking to reduce vibration in transport it is useful to know how much reduction is needed for ...
The assessment of building vibration with respect to human response requires knowledge of the influe...
The experiment described in this paper was designed to evaluate the differences in discomfort and bo...
It is currently assumed that the same frequency weightings, derived from studies of vibration discom...
Human bodies are often exposed to vertical vibrations when they are in the workplace or on vehicles....
Vibration experienced in transport and in buildings can yield discomfort or annoyance if the vibrati...
THE sensation of vibration is the subjective experience of an individual when a series of rapidly re...
The transmissibility of 12 seated subjects to sinusoidal vertical vibration was measured at 12 frequ...
The frequency dependence of discomfort caused by vertical mechanical shocks has been investigated wi...
Few studies have compared the discomfort caused by vibration in different directions, and few have i...
In this study, an experiment was conducted to determine frequency discrimination for sinusoidal vert...
The frequency content of a mechanical shock is not confined to its fundamental frequency, so it was ...
Apparent mass frequency response functions of the seated human body have been measured with random v...
Standards assume vibration discomfort depends on the frequency and direction of whole-body vibration...