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Abstract

The influences of the seat suspension on the comfort level, and stability of the bus driver are analyzed using a three-degree-of-freedom (3DOF) quarter-vehicle model. The influences are analyzed through the effects of seat suspension damping ratio ξ_se on driver frequency weighted acceleration a_w (m/s²) (comfort level) according to ISO 2631:1-1997 standard, the ratio of driver acceleration and gravitational acceleration a/g (vertical stability). With random excitation according to ISO 8608, considering the same vehicle speed value v (km/h) (in the region of 10 – 20 (km/h)), the decrease of ξ_se increases the a_w value, this result leads to the reduction of comfort level; Considering the same ξ_se value, a_w value decreases as increasing v value. With transient excitation according to IRC 99 – 1988, considering the same v value, the smaller ξ_se creates the larger a/g value; Considering the same ξ_se, the value of a/g increases and reaches the extreme in the vehicle speed range 20 – 30 (km/h), outside this speed range the value of a/g decrease.

Keywords

Bus driver seat nonlinear air spring random excitation transient excitation comfort level

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Analyzing the influences of bus driver seat’s suspension system on driver’s comfort level and stability

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