Possible Improvements in Ride Comfort
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SUMMARY The random vertical vibration of two linear models of a sprung mass with a passenger on seat is numerically solved. The input signal has a power spectrum of a real road. The acceleration of the passenger is frequency-weighted according to two various criteria. The gain in comfort obtained by lowering the natural frequency of the sprung mass is calculated along with the dynamic and static spring deflections. In addition, a solution of the vibration of the unsprung mass with evaluation of a possible improvement is presented.
[1] Walter D. Pilkey,et al. OPTIMUM SHOCK AND VIBRATION ISOLATION , 1971 .
[2] H J Bruns,et al. OPTIMIZING RIDE COMFORT , 1971 .
[3] A. G. Thompson. Optimum Damping in a Randomly Excited Non-Linear Suspension: , 1969 .
[4] Jerome E. Ruzicka. Resonance Characteristics of Unidirectional Viscous and Coulomb-Damped Vibration Isolation Systems , 1967 .
[5] Erich K. Bender. Some Fundamental Limitations of Active and Passive Vehicle-Suspension Systems , 1968 .