Abstract
At present, urban traffic congestion is a common problem of urban development in China. Therefore, China’s government issued the policy of opening the gated communities in 2016, hoping to alleviate traffic pressure to some extent. But, at present, the quantitative empirical research on the effect of the policy implementation is less and more idealistic. In order to complete the leap from research on local isolated traffic capacity of static gated communities to research on global coupling traffic capacity of dynamic multilayer network and, to a certain extent, reflect the innovation of the research model and method, we make a quantitative analysis of the effect of the policy more consistent with the actual situation, which provides a quantitative management basis for the implementation of the policy. Based on literature review, this paper carried out two stages of research. Stage one consists of constructing traffic capacity assessment model—Road Capacity Assessment (RCA) model based on BPR (Bureau of Public Roads) impedance function from a simple local static perspective. Considering the factors such as delay of signalized intersection and travel time, through modeling analysis and empirical test, it is found that about 12% of local traffic capacity can be improved after open community. Stage two consists of constructing a global capacity model based on multilayer complex network coupling from the perspective of complex global dynamics. Considering the various network nodes of pedestrians, nonmotor vehicles, and other factors, we construct a multilayer complex network and dynamic superposition coupling. The empirical data show that the overall traffic capacity of the open community is improved by at least 11.3%. Finally, it can be concluded that a significant increase in the global traffic capacity of complex urban road networks means that the losses caused by traffic congestion will be reduced. In some first-tier cities, the direct monthly income of the open-gated community is as high as 230 million yuan, not to mention its overall economic, social, and environmental benefits.
Highlights
Based on the analysis of the whole urban road network, this paper studies the integration degree and depth of the gated community and explores the influence of different open modes on the urban road network. e study in [17] proposes a long-term forecasting scheme and implementation method based on the interval type-2 fuzzy sets theory for traffic flow data
Traffic congestion is a common problem in cities at all levels, especially in special periods and places. rough investigation and research, in this paper, it is found that the impact of the opening of closed communities on improving road capacity can be summarized in the following three ways: (1) Share the main flow: due to the excessive length of some communities, the bypass distance of the surrounding roads has increased and the traffic volume is concentrated, which leads to the superimposition of flow and increases the pressure on urban traffic
The superimposed flow in the main road can be traversed through the residential area, sharing the traffic pressure on the main road increasingly
Summary
Based on the analysis of the whole urban road network, this paper studies the integration degree and depth of the gated community and explores the influence of different open modes on the urban road network. E results of the study were first predicted, and by selecting two indicators, namely, signal intersection delay and travel time, and combining them with the BPR obstruction function, a model was constructed to evaluate the impact of opening the communities on the road capacity, and the data obtained from traffic simulation were used to quantitatively analyze the degree of impact of opening different types of communities on the surrounding roads. Mathematical modeling and various methods in complex networks are comprehensively applied to complete the construction of systematic research ideas and the selection of research methods from static to dynamic and from local to overall
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