The Role of Spatial Features and Adjacency in Data-Driven Short-Term Prediction of Trip Production
An Exploratory Study in The Netherlands
Zahra Eftekhar (TU Delft - Traffic Systems Engineering)
S. Behrouzi (TU Delft - Traffic Systems Engineering)
P.K. Krishnakumari (TU Delft - Transport and Planning)
Adam Pel (TU Delft - Transport, Mobility and Logistics)
J.W.C. van Lint (TU Delft - Traffic Systems Engineering)
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Abstract
Large-scale prediction of trip production is essential for origin–destination (OD) demand estimation and prediction. One of the main challenges in predicting trip production patterns lies in addressing spatial-temporal correlations and variations. Whereas many studies focus on temporal correlations, very few consider spatial adjacency between traffic analysis zones (TAZ) as explanatory variables. This research proposes a method that integrates a graph convolutional neural network (GCN) into a long short-term memory network (LSTM) to do exactly that. By introducing a nationwide graph that encodes the adjacency of TAZs, spatial heterogeneity is considered in the prediction process, and a single prediction model is trained for the entire network, thereby avoiding the need to train multiple separate models and potentially reducing overall training overhead, while increasing the prediction accuracy. Moreover, with this model, we investigate the effect of spatial scale on spatial uncertainty and prediction accuracy and analyze prediction errors, residual patterns, and their associations with socio-spatial features at different spatial scales. The findings of this research have important implications for improving OD demand prediction models and provide valuable insights into the role of spatial scale and socio-spatial features in travel demand prediction.
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File under embargo until 25-03-2026