Mathematical modeling of mixed-traffic in urban areas

R. K. Pradhan, S. Shrestha, D. Gurung
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Abstract

Transportation is the means of mobility. Due to the growth in the population, rising traffic on road, delay in the movement of vehicles and traffic chaos could be observed in urban areas. Traffic congestion causes many social and economic problems. Because of the convenience and the quickness, motor-bikes gradually become the main travel mode of urban cities. In this paper, we extend the Lighthill–Whitham–Richards (LWR) traffic flow model equation into the mixed-traffic flow of two entities: car and motor-bike in a unidirectional single-lane road segment. The flow of cars is modeled by the advection equation and the flow of motor-bikes is modeled by the advection-diffusion equation. The model equations for cars and motor-bikes are coupled based on total traffic density on the road section, and they are non-dimensionalized to introduce a non-dimensional number widely known as Péclet number. Explicit finite difference schemes satisfying the CFL conditions are employed to solve the model equations numerically to compute the densities of cars and motor-bikes. The simulation of densities over various time instants is studied and presented graphically. Finally, the average densities of cars and motor-bikes on the road section are calculated for various values of Péclet numbers and mixed-traffic behavior are discussed. It is observed that the mixed-traffic behavior of cars and motor-bikes depends upon the Péclet number. The densities of motor-bikes and cars in the mixed-traffic flow approach the equilibrium state earlier in time for smaller values of Péclet number whereas densities take longer time to approach the equilibrium for the greater values of Péclet number.
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城市混合交通的数学建模
交通工具是移动的工具。由于人口的增长,在城市地区可以观察到道路上的交通量增加,车辆的移动延迟和交通混乱。交通拥堵造成许多社会和经济问题。由于方便快捷,摩托车逐渐成为城市的主要出行方式。本文将lighhill - whitham - richards (LWR)交通流模型方程推广到单向单车道路段上汽车和摩托车两种实体的混合交通流。汽车的流动采用平流方程,摩托车的流动采用平流-扩散方程。汽车和摩托车的模型方程是基于路段上的总交通密度进行耦合的,它们是无量纲化的,引入了一个无量纲数,即psamclet数。采用满足CFL条件的显式有限差分格式对模型方程进行数值求解,计算汽车和摩托车的密度。研究了密度在不同时刻的模拟,并给出了图形。最后,计算了不同psamclet数值下路段上汽车和摩托车的平均密度,并讨论了混合交通行为。观察到汽车和摩托车的混合交通行为取决于psamclet数。混合交通流中摩托车和汽车的密度在psamclet数较小的情况下较早接近平衡状态,而在psamclet数较大的情况下较长时间接近平衡状态。
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来源期刊
Mathematical Modeling and Computing
Mathematical Modeling and Computing Computer Science-Computational Theory and Mathematics
CiteScore
1.60
自引率
0.00%
发文量
54
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