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Classification of urban interchange patterns using a model combining shape context descriptor and graph convolutional neural network

Min Yang, Minjun Cao, Lingya Cheng, Huiping Jiang, Tinghua Ai, Xiongfeng Yan

2023Geo-spatial Information Science11 citationsDOIOpen Access PDF

Abstract

Pattern recognition is critical to map data handling and their applications. This study presents a model that combines the Shape Context (SC) descriptor and Graph Convolutional Neural Network (GCNN) to classify the patterns of interchanges, which are indispensable parts of urban road networks. In the SC-GCNN model, an interchange is modeled as a graph, wherein nodes and edges represent the interchange segments and their connections, respectively. Then, a novel SC descriptor is implemented to describe the contextual information of each interchange segment and serve as descriptive features of graph nodes. Finally, a GCNN is designed by combining graph convolution and pooling operations to process the constructed graphs and classify the interchange patterns. The SC-GCNN model was validated using interchange samples obtained from the road networks of 15 cities downloaded from OpenStreetMap. The classification accuracy was 87.06%, which was higher than that of the image-based AlexNet, GoogLeNet, and Random Forest models.

Topics & Concepts

Convolutional neural networkComputer scienceArtificial intelligenceContext (archaeology)GraphPattern recognition (psychology)GeographyTheoretical computer scienceArchaeologyAutomated Road and Building ExtractionData Management and AlgorithmsGeographic Information Systems Studies
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