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Journal of System Simulation

Abstract

Abstract: To solve the problem of large errors in the inference results of existing fine-grained urban flow inference models in complex traffic areas, a fine-grained traffic flow inference model based on dynamic back-projection network is proposed. The multi-dimensional interaction between the input coarse-grained traffic flow and external factors is calculated, and the interaction results are dynamically and adaptively fused with the coarse-grained traffic flow, so that the features can interact and adjust each other to assist model reasoning. Combining deep convolution and self-attention mechanism to learn local information and global information, and improve the understanding of input data by subsequent block. Through the back projection algorithm and gated cross attention mechanism, the traffic flow characteristics of complex regions are learned at a fine-grained level. Finally, a nonlinear transformation path is introduced based on flow normalization mechanism to enforce spatial structure constraints using information at different levels, thereby improving the inference accuracy of the model. Experimental results demonstrate that the proposed model outperforms similar methods in both subjective evaluation and objective metrics, particularly excelling in complex traffic areas such as city center entrances and bridge zones, where its performance is notably superior.

First Page

657

Last Page

666

CLC

TP391.9; U491.2

Recommended Citation

Xu Ming, Qi Guangyao, Qi Geqi. Fine-grained Traffic Flow Inference Model Based on Dynamic Back Projection Network[J]. Journal of System Simulation, 2025, 37(3): 657-666.

Corresponding Author

Qi Geqi

DOI

10.16182/j.issn1004731x.joss.23-1388

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