Abstract
Hundreds of millions of internal migrants are present in cities in the developing world. Accurately predicting their commuting mode choice and clarifying the effect size of the influencing factors have become increasingly indispensable for formulating and executing socially inclusive transportation plans and policies. Yet, scholarship on internal migrants’ travel mode choice is still scarce, particularly in the context of developing country. This study attempts to partly fill this gap. Using empirical data from Xiamen, China, it applies the Light Gradient Boosting (LightGBM) approach, a high-efficiency and high-performance machine learning framework, to predict the commuting mode choice of both the internal migrants and locals. The results show that (1) The built environment has larger impacts on locals’ mode choice than on migrants’; (2) For both the migrants and locals, the relative importance of the built environment in predicting commuting mode choice exceeds that of socio-demographics and trip characteristics; (3) Distance to the closest commercial center is the most important factor influencing commuting mode choice of both groups, and bus stop density also contributes a great deal; hence, regional accessibility and transit infrastructure can be given higher priority in intervening the commuting behaviors of migrants and locals. (4) The LightGBM models yield rather high prediction accuracy; their results are further compared with those of conventional discrete choice models and are found to be generally consistent with the latter. Those findings can help inform decision-makers about nuanced policies concerning meeting locals’ and migrants’ travel demands.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Adkins, A., Makarewicz, C., Scanze, M., Ingram, M., Luhr, G.: Contextualizing walkability: do relationships between built environments and walking vary by socioeconomic context? J. Am. Plann. Assoc. 83, 296–314 (2017)
Allen, R., Wang, J.: Immigrant legal status and commute mode choice for hispanics in the United States. J. Am. Plan. Assoc. 1–13 (2020)
Bell, M., Charles-Edwards, E., Ueffing, P., Stillwell, J., Kupiszewski, M., Kupiszewska, D.: Internal migration and development: comparing migration intensities around the world. Popul. Dev. Rev. 41, 33–58 (2015)
Blumenberg, E.: Moving in and moving around: immigrants, travel behavior, and implications for transport policy. Transp. Lett. 1, 169–180 (2009)
Blumenberg, E., Shiki, K.: Transportation assimilation: immigrants, race and ethnicity, and mode choice. In: Transportation Research Board 86th Annual Meeting. Washington DC, United States (2007a)
Blumenberg, E., Shiki, K. (2007b). Transportation assimilation: the case of immigrants and automobiles. In: 11th World Conference on Transport Research World Conference on Transport Research Society. Berkeley, United States
Blumenberg, E., Smart, M.: Getting by with a little help from my friends… and family: immigrants and carpooling. Transportation 37, 429–446 (2010)
Blumenberg, E., Smart, M.: Brother can you spare a ride? Carpooling in immigrant neighbourhoods. Urban Stud. 51, 1871–1890 (2014)
Blumenberg, E., Song, L.: Travel behavior of immigrants in California: trends and policy implications. In: Transportation Research Board 87th Annual Meeting. Washington DC, United States (2008)
Boyle, P., Halfacree, K., Robinson, V.: Exploring Contemporary Migration. Routledge (2014)
Cervero, R.: Built environments and mode choice: toward a normative framework. Transp. Res. Part D: Transp. Environ. 7, 265–284 (2002)
Cervero, R., Kockelman, K.: Travel demand and the 3Ds: Density, diversity, and design. Transp. Res. Part D Transp. Environ. 2, 199–219 (1997)
Charles-Edwards, E., Bell, M., Bernard, A., Zhu, Y.: Internal migration in the countries of Asia: levels, ages and spatial impacts. Asian Popul. Stud. 15, 150–171 (2019)
Chatman, D.G., Klein, N.J.: Why do immigrants drive less? Confirmations, complications, and new hypotheses from a qualitative study in New Jersey, USA. Transp. Policy 30, 336–344 (2013)
Cheng, L., Chen, X., De Vos, J., Lai, X., Witlox, F.: Applying a random forest method approach to model travel mode choice behavior. Travel Behav. Soc. 14, 1–10 (2019)
Chung, Y., Choi, K., Park, J., Litman, T.: Social exclusion and transportation services: a case study of unskilled migrant workers in South Korea. Habitat Int. 44, 482–490 (2014)
Ding, C., Wang, D., Liu, C., Zhang, Y., Yang, J.: Exploring the influence of built environment on travel mode choice considering the mediating effects of car ownership and travel distance. Transp. Res. Part A Policy Pract. 100, 65–80 (2017)
Ding, C., Cao, X., Wang, Y.: Synergistic effects of the built environment and commuting programs on commute mode choice. Transp. Res. Part A Policy Pract. 118, 104–118 (2018a)
Ding, C., Cao, X.J., Næss, P.: Applying gradient boosting decision trees to examine non-linear effects of the built environment on driving distance in Oslo. Transp. Res. Part A Policy Pract. 110, 107–117 (2018b)
Ding, C., Wang, Y., Tang, T., Mishra, S., Liu, C.: Joint analysis of the spatial impacts of built environment on car ownership and travel mode choice. Transp. Res. Part D Transp. Environ. 60, 28–40 (2018c)
Ding, C., Cao, X., Dong, M., Zhang, Y., Yang, J.: Non-linear relationships between built environment characteristics and electric-bike ownership in Zhongshan, China. Transp. Res. Part D: Transp. Environ. 75, 286–296 (2019)
Elith, J., Leathwick, J.R., Hastie, T.: A working guide to boosted regression trees. J. Anim. Ecol. 77, 802–813 (2008)
Elshiewy, O., Guhl, D., Boztug, Y.: Multinomial logit models in marketing-from fundamentals to state-of-the-art. Marketing ZFP 39, 32–49 (2017)
Etminani-Ghasrodashti, R., Ardeshiri, M.: The impacts of built environment on home-based work and non-work trips: an empirical study from Iran. Transp. Res. Part A Policy Pract. 85, 196–207 (2016)
Ewing, R., Cervero, R.: Travel and the built environment: a synthesis. Transp. Res. Rec. 1780, 87–114 (2001)
Ewing, R., Cervero, R.: Travel and the built environment: a meta-analysis. J. Am. Plann. Assoc. 76, 265–294 (2010)
Ewing, R., Cervero, R.: “Does compact development make people drive less?” the answer is yes. J. Am. Plann. Assoc. 83, 19–25 (2017)
Fargues, P.: International migration and the demographic transition: a two-way interaction. Int. Migr. Rev. 45, 588–614 (2011)
Forsyth, A., Oakes, J.M., Lee, B., Schmitz, K.H.: The built environment, walking, and physical activity: is the environment more important to some people than others? Transp. Res. Part D Transp. Environ. 14, 42–49 (2009)
Frank, L., Bradley, M., Kavage, S., Chapman, J., Lawton, T.K.: Urban form, travel time, and cost relationships with tour complexity and mode choice. Transportation 35, 37–54 (2008)
Friedman, J.H.: Greedy function approximation: a gradient boosting machine. Ann. Stat. 1189–1232 (2001)
Guo, Y., Wang, J., Peeta, S.: The impacts of household registration and head of household travel behavior on travel mode choice in China (2016)
Guo, Y., Peeta, S., Somenahalli, S.: The impact of walkable environment on single-family residential property values. J. Transp. Land Use 10, 241–261 (2017)
Guo, Y., Wang, J., Peeta, S., Anastasopoulos, P.C.: Impacts of internal migration, household registration system, and family planning policy on travel mode choice in China. Travel Behav. Soc. 13, 128–143 (2018)
Guo, Y., Wang, J., Peeta, S., Anastasopoulos, P.C.: Personal and societal impacts of motorcycle ban policy on motorcyclists’ home-to-work morning commute in China. Travel Behav. Soc. 19, 137–150 (2020)
Guo, Y., Li, Y., Anastasopoulos, P.C., Peeta, S., Lu, J.: China’s millennial car travelers’ mode shift responses under congestion pricing and reward policies: a case study in Beijing. Travel Behav. Soc. 23, 86–99 (2021)
Ha, J., Lee, S., Ko, J.: Unraveling the impact of travel time, cost, and transit burdens on commute mode choice for different income and age groups. Transp. Res. Part A Policy Pract. 141, 147–166 (2020)
Handy, S.: Thoughts on the meaning of Mark Stevens’s meta-analysis. J. Am. Plan. Assoc. 83, 26–28 (2017)
Handy, S., Cao, X., Mokhtarian, P.L.: Self-selection in the relationship between the built environment and walking: empirical evidence from Northern California. J. Am. Plan. Assoc. 72, 55–74 (2006)
Handy, S., Blumenberg, E., Donahue, M., Lovejoy, K., Shaheen, S.A., Rodier, C.J., Shiki, K., Song, L., Tal, G.: Travel Behavior of Immigrant Groups in California. Citeseer (2009)
Hu, L.: Changing travel behavior of Asian immigrants in the US. Transp. Res. Part A Policy Pract. 106, 248–260 (2017)
Hu, X., Cook, S., Salazar, M.A.: Internal migration and health in China. The Lancet 372, 1717–1719 (2008)
Ke, G., Meng, Q., Finley, T., Wang, T., Chen, W., Ma, W., Ye, Q., Liu, T.-Y.: Lightgbm: a highly efficient gradient boosting decision tree. Adv. Neural Inf. Process. Syst. 3146–3154 (2017)
Keyes, A.K., Crawford-Brown, D.: The changing influences on commuting mode choice in urban England under Peak Car: a discrete choice modelling approach. Transp. Res. F Traffic Psychol. Behav. 58, 167–176 (2018)
Lau, J.C.-Y., Chiu, C.C.: Dual-track urbanization and co-location travel behavior of migrant workers in new towns in Guangzhou, China. Cities 30, 89–97 (2013)
Li, S.-M., Liu, Y.: The jobs-housing relationship and commuting in Guangzhou, China: Hukou and dual structure. J. Transp. Geogr. 54, 286–294 (2016)
Li, Y., Geertman, S., Hooimeijer, P., Lin, Y., Yang, H.: Do migrants and locals differ in commuting behavior? A case study of Xiamen, China. Transp. Policy 108, 1–10 (2021)
Limtanakool, N., Dijst, M., Schwanen, T.: The influence of socioeconomic characteristics, land use and travel time considerations on mode choice for medium-and longer-distance trips. J. Transp. Geogr. 14, 327–341 (2006)
Liu, C.Y., Painter, G.: Travel behavior among Latino immigrants: the role of ethnic concentration and ethnic employment. J. Plan. Educ. Res. 32, 62–80 (2012)
Liu, L., Huang, Y., Zhang, W.: Residential segregation and perceptions of social integration in Shanghai, China. Urban Stud. 55, 1484–1503 (2018)
Liu, J., Xiao, L., Yang, L., Zhou, J.: A tale of two social groups in Xiamen, China: trip frequency of migrants and locals and its determinants. Travel Behav. Soc. 20, 213–224 (2020)
Lu, Y., Sun, G., Sarkar, C., Gou, Z., Xiao, Y.: Commuting mode choice in a high-density city: do land-use density and diversity matter in Hong Kong? Int. J. Environ. Res. Public Health 15, 920 (2018)
Mccarthy, L., Delbosc, A., Currie, G., Molloy, A.: Factors influencing travel mode choice among families with young children (aged 0–4): a review of the literature. Transp. Rev. 37, 767–781 (2017)
Munshi, T.: Built environment and mode choice relationship for commute travel in the city of Rajkot, India. Transp. Res. Part D Transp. Environ. 44, 239–253 (2016)
National Bureau of Statistics of China.: Monitoring and investigation report on rural migrant workers 2019 (2020)
Pinjari, A.R., Pendyala, R.M., Bhat, C.R., Waddell, P.A.: Modeling residential sorting effects to understand the impact of the built environment on commute mode choice. Transportation 34, 557–573 (2007)
Rawls, J.: A Theory of Justice. Harvard University Press (2009)
Semanjski, I., Gautama, S., Ahas, R., Witlox, F.: Spatial context mining approach for transport mode recognition from mobile sensed big data. Comput. Environ. Urban Syst. 66, 38–52 (2017)
Shao, Q., Zhang, W., Cao, X., Yang, J., Yin, J.: Threshold and moderating effects of land use on metro ridership in Shenzhen: implications for TOD planning. J. Transp. Geogr. 89, 102878 (2020)
Shen, Q., Chen, P., Pan, H.: Factors affecting car ownership and mode choice in rail transit-supported suburbs of a large Chinese city. Transp. Res. Part A Policy Pract. 94, 31–44 (2016)
Smart, M.: US immigrants and bicycling: two-wheeled in Autopia. Transp. Policy 17, 153–159 (2010)
Smart, M.J.: A nationwide look at the immigrant neighborhood effect on travel mode choice. Transportation 42, 189–209 (2015)
Stevens, M.R.: Does compact development make people drive less? J. Am. Plan. Assoc. 83, 7–18 (2017)
Sun, B., Ermagun, A., Dan, B.: Built environmental impacts on commuting mode choice and distance: evidence from Shanghai. Transp. Res. Part D Transp. Environ. 52, 441–453 (2017)
Tal, G., Handy, S.: Travel behavior of immigrants: an analysis of the 2001 National Household Transportation Survey. Transp. Policy 17, 85–93 (2010)
Tao, T., Wang, J., Cao, X.: Exploring the non-linear associations between spatial attributes and walking distance to transit. J. Transp. Geogr. 82, 102560 (2020)
Tao, T., Wu, X., Cao, J., Fan, Y.: Exploring the non-linear relationship between the built environment and active travel in the twin cities (2019)
Tran, M.T., Zhang, J., Chikaraishi, M., Fujiwara, A.: A joint analysis of residential location, work location and commuting mode choices in Hanoi, Vietnam. J. Transp. Geogr. 54, 181–193 (2016)
Van Wee, B., Handy, S.: Key research themes on urban space, scale, and sustainable urban mobility. Int. J. Sustain. Transp. 10, 18–24 (2016)
Wang, F., Ross, C.L.: Machine learning travel mode choices: comparing the performance of an extreme gradient boosting model with a multinomial logit model. Transp. Res. Rec. 2672, 35–45 (2018)
Xiao, L., Lo, S., Zhou, J., Liu, J., Yang, L.: Predicting vibrancy of metro station areas considering spatial relationships through graph convolutional neural networks: the case of Shenzhen, China. Environ Plann B Urban Anal City Sci 2399808320977866 (2020)
Ye, R., Titheridge, H.: Satisfaction with the commute: the role of travel mode choice, built environment and attitudes. Transp. Res. Part D Transp. Environ. 52, 535–547 (2017)
Zhang, M., He, S., Zhao, P.: Revisiting inequalities in the commuting burden: institutional constraints and job-housing relationships in Beijing. J. Transp. Geogr. 71, 58–71 (2018)
Zhang, W., Zhao, Y., Cao, X.J., Lu, D., Chai, Y.: Nonlinear effect of accessibility on car ownership in Beijing: pedestrian-scale neighborhood planning. Transp. Res. Part D Transp. Environ. 86, 102445 (2020)
Zhao, P., Howden-Chapman, P.: Social inequalities in mobility: the impact of the hukou system on migrants’ job accessibility and commuting costs in Beijing. Int. Dev. Plan. Rev. 32, 363–384 (2010)
Zhao, X., Yan, X., Yu, A., Van Hentenryck, P.: Prediction and behavioral analysis of travel mode choice: a comparison of machine learning and logit models. Travel Behav. Soc. 20, 22–35 (2020)
Zhu, P.: Residential segregation and employment outcomes of rural migrant workers in China. Urban Stud. 53, 1635–1656 (2016)
Zhu, P., Zhao, S., Wang, L., Al Yammahi, S.: Residential segregation and commuting patterns of migrant workers in China. Transp. Res. Part D Transp. Environ. 52, 586–599 (2017)
Author information
Authors and Affiliations
Contributions
Conceptualization: Jixiang Liu; Methodology: Jixiang Liu, Longzhu Xiao; Formal analysis and investigation: Jixiang Liu, Longzhu Xiao; Writing—original draft preparation: Jixiang Liu; Writing—review and editing: Longzhu Xiao; Resources: Longzhu Xiao.
Corresponding author
Ethics declarations
Conflict of interest
On behalf of all authors, the corresponding author states that there is no conflict of interest.
Additional information
Publisher's Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Supplementary Information
Below is the link to the electronic supplementary material.
Rights and permissions
Springer Nature or its licensor holds exclusive rights to this article under a publishing agreement with the author(s) or other rightsholder(s); author self-archiving of the accepted manuscript version of this article is solely governed by the terms of such publishing agreement and applicable law.
About this article
Cite this article
Liu, J., Xiao, L. Socioeconomic differences in effect size: predicting commuting mode choice of migrants and locals using a light gradient boosting approach. Transportation 51, 1–24 (2024). https://doi.org/10.1007/s11116-022-10317-5
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11116-022-10317-5