Hopf bifurcation control of macroscopic traffic flow model considering vehicle braking effect

IF 1.8 4区 物理与天体物理 Q4 CHEMISTRY, PHYSICAL The European Physical Journal E Pub Date : 2023-12-20 DOI:10.1140/epje/s10189-023-00393-5
WenHuan Ai, MingMing Wang, DaWei Liu
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Abstract

Traffic congestion not only has a great impact on people's travel, but also increases energy consumption and air pollution. The control analysis of the macroscopic traffic flow model considering the vehicle braking effect is particularly important, reflecting the impact on the actual traffic flow density wave, so as to better solve the actual traffic problems. In this paper, based on a speed difference optimization speed model, the micro–macro-variables are transformed into a high-order continuous traffic flow model. Then, a random function considering the physical correlation of random components is added to the high-order continuous traffic flow model to establish a random traffic flow model that can reflect the uncertain behavior of traffic flow acceleration or deceleration. Based on this stochastic traffic model, the existence of Hopf bifurcation and bifurcation control of the traffic flow system model considering stochastic characteristics are derived by using Hopf bifurcation theorem. By Chebyshev polynomial approximation method, the stochastic problem of the system is transformed into the bifurcation control problem of its equivalent deterministic system. A feedback controller is designed to delay the occurrence of Hopf bifurcation and control the amplitude of the limit cycle. Without changing the equilibrium point of the system, the complete elimination of Hopf bifurcation can be achieved by controlling the amplitude of the limit cycle. That is, the feedback controller is used to modify the bifurcation characteristics of the system, such as the bifurcation appearing at the equilibrium point in the control system moves forward, moves backward or disappears, so as to achieve the effect of preventing or alleviating traffic congestion.

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考虑车辆制动效应的宏观交通流模型的霍普夫分岔控制
交通拥堵不仅对人们的出行造成很大影响,还会增加能源消耗和空气污染。考虑车辆制动效应的宏观交通流模型的控制分析尤为重要,反映出对实际交通流密度波的影响,从而更好地解决实际交通问题。本文基于速度差优化速度模型,将微观宏观变量转化为高阶连续交通流模型。然后,在高阶连续交通流模型中加入考虑了随机成分物理相关性的随机函数,建立一个能反映交通流加速或减速不确定行为的随机交通流模型。基于该随机交通流模型,利用霍普夫分岔定理推导出考虑随机特性的交通流系统模型的霍普夫分岔存在性和分岔控制。通过切比雪夫多项式近似法,将系统的随机问题转化为等效确定性系统的分岔控制问题。设计了一个反馈控制器来延迟霍普夫分岔的发生并控制极限周期的振幅。在不改变系统平衡点的情况下,通过控制极限周期的振幅可以完全消除霍普夫分岔。也就是说,利用反馈控制器来改变系统的分岔特性,如控制系统中平衡点出现的分岔向前移动、向后移动或消失,从而达到防止或缓解交通拥堵的效果。
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来源期刊
The European Physical Journal E
The European Physical Journal E CHEMISTRY, PHYSICAL-MATERIALS SCIENCE, MULTIDISCIPLINARY
CiteScore
2.60
自引率
5.60%
发文量
92
审稿时长
3 months
期刊介绍: EPJ E publishes papers describing advances in the understanding of physical aspects of Soft, Liquid and Living Systems. Soft matter is a generic term for a large group of condensed, often heterogeneous systems -- often also called complex fluids -- that display a large response to weak external perturbations and that possess properties governed by slow internal dynamics. Flowing matter refers to all systems that can actually flow, from simple to multiphase liquids, from foams to granular matter. Living matter concerns the new physics that emerges from novel insights into the properties and behaviours of living systems. Furthermore, it aims at developing new concepts and quantitative approaches for the study of biological phenomena. Approaches from soft matter physics and statistical physics play a key role in this research. The journal includes reports of experimental, computational and theoretical studies and appeals to the broad interdisciplinary communities including physics, chemistry, biology, mathematics and materials science.
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