Copyright © 2019 by ASME. A major contributor to rolling resistance is road roughness-induced energy dissipation in vehicle suspension systems. We identify the parameters driving this dissipation via a combination of dimensional analysis and asymptotic analysis. We begin with a mechanistic model and basic random vibration theory to relate the statistics of road roughness profile and the dynamic properties of the vehicle to dissipated energy. Asymptotic analysis is then used to unravel the dependence of the dissipation on key vehicle and road characteristics. Finally, closed form expressions and scaling relations are developed that permit a straightforward application of the proposed road-vehicle interaction model for evaluating network-leve...
Surface irregularity acts as a major excitation source in off-road driving that induces vibration of...
Vehicle dynamics models rely on accurate inputs to quantify dynamic loading and energy dissipation t...
A developed and well-maintained road network is imperative for the distribution of freight in the mo...
The energy dissipated in a vehicle suspension system due to road roughness affects rolling resistanc...
The transportation sector is responsible for 27% of greenhouse gas emissions in the United States, i...
A dynamic modeling and experimental study dealing with vehicular rolling losses on uneven roads is d...
We propose, calibrate, and validate a crowdsourced approach for estimating power spectral density (P...
Rolling resistance is one of the key factors that affect the fuel efficiency of the national pavemen...
Different models have been developed to quantify the energy dissipation in pavements due to pavement...
This paper presents a comprehensive assessment of the power that is available for harvest-ing in the...
ABSTRACT: For environmental reasons, the energy consumption of road traffic is an overwhelming quest...
A novel modelling approach to predict the influence of road texture on the rolling resistance of car...
Investigation of mechanical vibration of a vehicle is still current topic. This phenomenon effects d...
A mechanistic roughness performance model that takes into account vehicle dynamics was developed in ...
Thesis: S.M., Massachusetts Institute of Technology, Department of Civil and Environmental Engineeri...
Surface irregularity acts as a major excitation source in off-road driving that induces vibration of...
Vehicle dynamics models rely on accurate inputs to quantify dynamic loading and energy dissipation t...
A developed and well-maintained road network is imperative for the distribution of freight in the mo...
The energy dissipated in a vehicle suspension system due to road roughness affects rolling resistanc...
The transportation sector is responsible for 27% of greenhouse gas emissions in the United States, i...
A dynamic modeling and experimental study dealing with vehicular rolling losses on uneven roads is d...
We propose, calibrate, and validate a crowdsourced approach for estimating power spectral density (P...
Rolling resistance is one of the key factors that affect the fuel efficiency of the national pavemen...
Different models have been developed to quantify the energy dissipation in pavements due to pavement...
This paper presents a comprehensive assessment of the power that is available for harvest-ing in the...
ABSTRACT: For environmental reasons, the energy consumption of road traffic is an overwhelming quest...
A novel modelling approach to predict the influence of road texture on the rolling resistance of car...
Investigation of mechanical vibration of a vehicle is still current topic. This phenomenon effects d...
A mechanistic roughness performance model that takes into account vehicle dynamics was developed in ...
Thesis: S.M., Massachusetts Institute of Technology, Department of Civil and Environmental Engineeri...
Surface irregularity acts as a major excitation source in off-road driving that induces vibration of...
Vehicle dynamics models rely on accurate inputs to quantify dynamic loading and energy dissipation t...
A developed and well-maintained road network is imperative for the distribution of freight in the mo...