Evaluation of the impact of pavement degradation on driving comfort and safety using a dynamic simulation model

Q3 Engineering

Advances in Transportation Studies Pub Date : 2018-06-25 DOI:10.4399/978882551688310

F. D’Amico, A. Calvi, L. B. Ciampoli, F. Tosti, M. G. Brancadoro

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引用次数: 4

Abstract

The dynamic effects exerted by the vehicles on the road pavement have been thoroughly investigated over years. The main reason for this investigation is the major influence on the propagation and worsening of the pavement damages exerted by the dynamic loads rather than the static ones. To date, the modelling theories of systems have evolved, along with the computational capability of the modern calculators. To this effect, three-dimensional simulations of the tire-surface interaction are commonly used. These simulations take into account the dynamics of the load and the consequent deformation of the pavement. However, previous studies aimed at analyzing the above interaction for the optimisation strategies of the maintenance activities within the context of effective road asset management. On the contrary, this work focuses on the safety-related issues linked with the dynamic effects suffered by the vehicle, when passing on different road defects. The goal of this study is to analyse numerically the kinematic and the dynamic effects of the pavement degradations (and in particular rutting) on the driving safety. The simulation of the main characteristics and the evolution of the pavement damages over the time (e.g., the simulation of the tire-pavement contacts and the dynamic response on the vehicles) is a useful method for the development of safe and comprehensive rehabilitation programs. These are of paramount importance to limit the accident rates. The effects on the driving safety was analysed using a simulation model for the vehicles behaviour in the case of damaged pavements. Different road geometries and vehicle types were considered to evaluate the rutting effects on safety, as a function of the evolution stage of this type of pavement damage. In more detail, the performance characteristics of the vehicles, the dynamic and kinematic parameters (e.g., the vehicle trajectory and the vertical acceleration), were collected for pavement conditions with progressively high levels of rutting. The study proposes a theoretical model of qualitative relationships between differing stages and location of rutting, and the consequent effects on driving safety for different types of vehicles (passenger cars and powered two wheelers). It is worth to emphasize the relevance of this research for maintenance prioritization purposes at the road network level. Priority is based on the level of risk associated with the pavement degradations and with different types of vehicle.

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使用动态模拟模型评估路面退化对驾驶舒适性和安全性的影响

多年来，人们对车辆对路面产生的动力效应进行了深入的研究。研究的主要原因是动荷载对路面损伤的扩展和恶化的影响大于静荷载。到目前为止，系统的建模理论已经随着现代计算器的计算能力而发展。为了达到这个效果，通常使用轮胎-表面相互作用的三维模拟。这些模拟考虑了荷载的动力学和随之而来的路面变形。然而，先前的研究旨在分析上述相互作用，以便在有效的道路资产管理背景下优化维护活动的策略。相反，这项工作侧重于与车辆在不同道路缺陷上通过时所遭受的动态影响相关的安全问题。本研究的目的是数值分析路面退化(特别是车辙)对驾驶安全的运动学和动力学影响。路面损伤的主要特征及其随时间演变的模拟(如轮胎-路面接触和车辆动态响应的模拟)是制定安全和综合修复方案的有效方法。这些对限制事故率至关重要。利用路面损坏情况下车辆行为的仿真模型，分析了对行车安全的影响。考虑不同的道路几何形状和车辆类型，评估车辙对安全的影响，作为这类路面损伤演变阶段的函数。更详细地说，车辆的性能特征，动态和运动学参数(例如，车辆轨迹和垂直加速度)，都是在车辙逐渐升高的路面条件下收集的。针对不同类型的车辆(乘用车和动力两轮车)，提出了车辙不同阶段和位置之间的定性关系及其对驾驶安全的影响的理论模型。值得强调的是，本研究对于路网层面的养护优先级目的的相关性。优先级是基于与路面退化和不同类型车辆相关的风险水平。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Advances in Transportation Studies Engineering-Safety, Risk, Reliability and Quality

CiteScore

1.00

自引率

0.00%

发文量