The issue of ride comfort for vehicle operations has generated considerable interest recently especially in heavy vehicle systems since long-distance drivers are more likely to experience high levels of vibration. This paper introduces the general concept of vibration-related health problems, discusses ride comfort assessment criteria and methods, then focuses on the methodology of using computer simulation to analyse ride comfort. The computer-based ride comfort model can be divided into three submodels: vehicle model, driver/seat model, and road profile input model. Time domain and frequency domain analysis is addressed for seven vehicle models, and detailed modelling techniques are introduced. Five driver/seat models are reviewed to examine the transmissibility and impedance of vibration data from the cab floor through the seat to the body of the operator; these characteristics are routinely neglected in vehicle simulation due to their complexity and uncertainty. Road profile data can be field-measured data as well as the data generated based on the power spectral density method. While the former gives the more accurate result, the latter will allow more flexibility to apply various road conditions to the simulation program.
Heavy vehicle ride comfort: Literature survey
Heavy Vehicle Systems ; 8 , 3-4 ; 258-284
2001
27 Seiten, 38 Quellen
Article (Journal)
English
Heavy vehicle ride comfort: literature survey
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