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Modeling and spatial analysis of heavy-duty truck CO2 using travel activities

Zhipeng Peng, Hao Ji, Renteng Yuan, Yonggang Wang, Said M. Easa, Chenzhu Wang, Hongshuai Cui, Xiatong Zhao

2025Journal of Transport Geography13 citationsDOIOpen Access PDF

Abstract

Heavy-duty trucks (HDTs) are vital components of the freight industry yet have faced criticism for their substantial CO 2 emissions. This study, focusing on Xi'an, a crucial freight hub city in China, aims to investigate the factors influencing CO 2 emission from HDTs. A unique aspect of this study is using a Latent Dirichlet Allocation (LDA) model to evaluate the potential impact of different travel activities on CO 2 emissions using travel activities of HDTs extracted from extensive GPS data. Subsequently, the Random Forest (RF) model with a GeoShapley explainer was used to examine both the main and spatial effects of travel activities, road density, land use, and freight hub accessibility on CO 2 emissions. The results revealed the existence of fifteen distinct travel activities among HDTs in Xi'an, eight of which clearly influence CO 2 emissions. Considerable variations were observed in the magnitudes of the impact of different variables on CO 2 emissions, as indicated by GeoShapley values. The density of expressways and main roads has the greatest impact on CO 2 emissions, while various types of travel activities also significantly affect CO 2 emissions, with the impact of different travel activities varying to some extent. Additionally, there is evident spatial heterogeneity in the impact of various variables on CO 2 emissions, with larger positive GeoShapley values tending to concentrate around the 3rd Ring and expressways in Xi'an City. These findings, shedding light on the complex interplay of factors influencing CO 2 emissions from HDTs, provide valuable insights for formulating environmentally sustainable management policies concerning HDTs from spatial perspectives.

Topics & Concepts

TruckHeavy dutyTransport engineeringDutyBusinessEngineeringComputer scienceAutomotive engineeringPolitical scienceLawVehicle emissions and performanceTransportation Planning and OptimizationUrban Transport and Accessibility