Nonlinear Analysis of an Extended Heterogeneous Lattice Hydrodynamic Model Considering on/off-Ramps

IF 2.9 3区 工程技术 Q2 MECHANICS
Rongjun Cheng, Xudong An, Yumin Cheng
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引用次数: 0

Abstract

To study the impact of on/off-ramps on traffic stability in heterogeneous traffic flow, a novel lattice hydrodynamic model was presented. The new model’s stability condition was determined using the linear stability analysis method. The theoretical results reveal that traffic flow stability is influenced by the proportion of vehicles with different maximum speeds and safe headway, as well as the presence of on-ramps and off-ramps to a certain degree. Through the approximate perturbation method, the mKdV equation and the kink–antikink solution of the traffic density at the jam area are obtained. In order to verify the effectiveness and feasibility of the new model, numerical simulations were conducted to demonstrate on/off ramp effect and different proportions of vehicles which possess bigger maximum velocity or safe space headway affect the traffic stability. The numerical results indicate that in heterogeneous traffic flow scenarios, increasing the ratio of vehicles which possess bigger maximum velocity or bigger safe space headway can lead to a deterioration of traffic stability. The effect of on-ramp could cause traffic instability, while the effect of off-ramp is beneficial for easing traffic congestion.

考虑开关坡道的扩展异质晶格流体力学模型的非线性分析
为了研究在异质交通流中上/下匝道对交通稳定性的影响,提出了一种新颖的晶格流体力学模型。采用线性稳定性分析方法确定了新模型的稳定性条件。理论结果表明,不同最高车速和安全车距的车辆比例以及上、下匝道的存在都会在一定程度上影响交通流的稳定性。通过近似扰动法,得到了堵塞区交通密度的 mKdV 方程和 Kink-antikink 解。为了验证新模型的有效性和可行性,进行了数值模拟,以证明上下匝道效应和不同比例的车辆拥有更大的最大速度或安全空间车头对交通稳定性的影响。数值模拟结果表明,在异质交通流情况下,提高拥有较大最大速度或较大安全距离的车辆比例会导致交通稳定性恶化。上匝道的影响可能导致交通不稳定,而下匝道的影响则有利于缓解交通拥堵。
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
CiteScore
5.80
自引率
11.40%
发文量
116
审稿时长
3 months
期刊介绍: The journal has as its objective the publication and wide electronic dissemination of innovative and consequential research in applied mechanics. IJAM welcomes high-quality original research papers in all aspects of applied mechanics from contributors throughout the world. The journal aims to promote the international exchange of new knowledge and recent development information in all aspects of applied mechanics. In addition to covering the classical branches of applied mechanics, namely solid mechanics, fluid mechanics, thermodynamics, and material science, the journal also encourages contributions from newly emerging areas such as biomechanics, electromechanics, the mechanical behavior of advanced materials, nanomechanics, and many other inter-disciplinary research areas in which the concepts of applied mechanics are extensively applied and developed.
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