Modeling mechanical restriction differences between car and heavy truck in two-lane cellular automata traffic flow model

As a kind of bottleneck, the lane closing has seldomly been investigated with cellular automata model. In this paper, we study this issue using the cellular automata traffic flow model. The capacity and the density distribution of this kind of bottleneck are discussed in details. We find that (i) the capacity of the bottleneck is a little smaller than the maximum flow rate of single-lane road; (ii) different regulations may lead to different density distributions of the vehicles upstream of the lane closing. Moreover, the density inversion phenomenon is reported under certain conditions. This enlightens us to propose that the phenomenon of density inversion reported in many publications may be caused by the bottlenecks on the highway.

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A study of a main-road cellular automata traffic flow model

Chinese Physics ◽

10.1088/1009-1963/11/7/306 ◽

2002 ◽

Vol 11 (7) ◽

pp. 678-683 ◽

Cited By ~ 14

Author(s):

Huang Ping-Hua ◽

Kong Ling-Jiang ◽

Liu Mu-Ren

Keyword(s):

Cellular Automata ◽

Traffic Flow ◽

Flow Model ◽

Main Road ◽

Traffic Flow Model

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Cellular Automata Ship Traffic Flow Model Considering Integrated Bridge System

International Journal of u- and e- Service Science and Technology ◽

10.14257/ijunesst.2013.6.6.12 ◽

2013 ◽

Vol 6 (6) ◽

pp. 121-132 ◽

Cited By ~ 7

Author(s):

Hongxiang Feng

Keyword(s):

Cellular Automata ◽

Traffic Flow ◽

Flow Model ◽

Traffic Flow Model ◽

Ship Traffic ◽

Bridge System

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Analysis and comparison of traffic flow models: a new hybrid traffic flow model vs benchmark models

European Transport Research Review ◽

10.1186/s12544-021-00515-0 ◽

2021 ◽

Vol 13 (1) ◽

Author(s):

Facundo Storani ◽

Roberta Di Pace ◽

Francesca Bruno ◽

Chiara Fiori

Keyword(s):

Cellular Automata ◽

Traffic Flow ◽

Flow Model ◽

Boundary Region ◽

Driver Model ◽

Transmission Model ◽

Cell Transmission Model ◽

Traffic Flow Model ◽

Microscopic Models ◽

Cell Transmission

Abstract Background This paper compares a hybrid traffic flow model with benchmark macroscopic and microscopic models. The proposed hybrid traffic flow model may be applied considering a mixed traffic flow and is based on the combination of the macroscopic cell transmission model and the microscopic cellular automata. Modelled variables The hybrid model is compared against three microscopic models, namely the Krauß model, the intelligent driver model and the cellular automata, and against two macroscopic models, the Cell Transmission Model and the Cell Transmission Model with dispersion, respectively. To this end, three main applications were considered: (i) a link with a signalised junction at the end, (ii) a signalised artery, and (iii) a grid network with signalised junctions. Results The numerical simulations show that the model provides acceptable results. Especially in terms of travel times, it has similar behaviour to the microscopic model. By contrast, it produces lower values of queue propagation than microscopic models (intrinsically dominated by stochastic phenomena), which are closer to the values shown by the enhanced macroscopic cell transmission model and the cell transmission model with dispersion. The validation of the model regards the analysis of the wave propagation at the boundary region.

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