A non-local grouping tensor train decomposition model for travel demand analysis concerning categorical independent variables

Authors

Zheng Zhu
Meng Xu
Kehua Wang
Chenyuan Lei
Yingji Xia
Xiqun (Michael) Chen

Document Type

Journal Article

Publication Date

2023

Subject Area

place - north america, place - urban, mode - bike, mode - subway/metro, ridership - demand, land use - impacts

Keywords

Bike-sharing, Metro, Tensor decomposition, Travel demand analysis

Abstract

With the booming of transportation big data, plenty of spatial and temporal features become available for developing travel demand analysis models. However, existing machine learning based travel demand fitting models could face significant model complexity issues once there are multiple discrete/categorical independent variables. This paper embeds a non-local grouping (clustering) process into the tensor train decomposition (NLG-TTD) to characterize the higher-order and nonlinear relationship between categorical variables and travel demand. That is, the transportation dataset with multiple discrete/categorical independent variables and travel demand is treated as a multi-mode tensor, wherein levels of a discrete/categorical variable are regarded as indexes of a mode in the tensor, leading to a “regression on index”. The proposed NLG-TTD model divides the full tensor into non-local sub-tensors, clusters sub-tensors with similarity, conducts tensor train decomposition (TTD) within each cluster, and aggregates cluster-specific learning results. Compared with a conventional TTD that generally works on image completions, NLG-TTD can reveal non-Euclidean and non-linear patterns between categorical/discrete levels in independent variables. It is expected to discover similar travel demand patterns among categorical levels and provide high-level goodness-of-fit. For numerical studies, we use bike-sharing usage data and metro demand data in New York City (NYC), in which several widely-used machine learning models are trained for comparison. The results demonstrate the good performance of the proposed model. Moreover, we apply the NLG-TTD model to analyze and predict the impact of land use shifts on travel demand.

Rights

Permission to publish the abstract has been given by Elsevier, copyright remains with them.

Comments

Transportation Research Part C Home Page:

http://www.sciencedirect.com/science/journal/0968090X

Recommended Citation

Zhu, Z., Xu, M., Wang, K., Lei, C., Xia, Y., & Chen, X. M. (2023). A non-local grouping tensor train decomposition model for travel demand analysis concerning categorical independent variables. Transportation Research Part C: Emerging Technologies, 157, 104396.