Walking and bicycle catchment areas of tram stops: Factors and insights

Lotte Rijsman; Niels Van Oort; Danique Ton; Serge Hoogendoorn; Eric Molin; Thomas Teijl

doi:10.1109/MTITS.2019.8883361

Walking and bicycle catchment areas of tram stops: Factors and insights

Lotte Rijsman, Niels Van Oort, Danique Ton, Serge Hoogendoorn, Eric Molin, Thomas Teijl

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

7 Citations (Scopus)

89 Downloads (Pure)

Abstract

Pollution and congestion are important issues in urban mobility. These can potentially be solved by multimodal transport, such as the bicycle-Transit combination, which benefits from the flexible aspect of the bicycle and the wider spatial range of public transport. In addition, the bicycle can increase the catchment areas of public transport stops. Most transit operators consider a fixed 400m buffer catchment area. Currently, not much is known about what influences the size of catchment areas, especially for the bicycle as a feeder mode. Bicycles allow for reaching a further stop in order to avoid a transfer, but it is not clear whether travelers actually do this. This paper aims to fill this knowledge gap by assessing which factors affect feeder distance and feeder mode choice. Data are collected by an on-board transit revealed preference survey among tram travelers in The Hague, The Netherlands. Both regression models and a qualitative analysis are performed to identify the factors that influence feeder distance and feeder mode choice. Results show that the median walking feeder distance is 380m, and the median cycling feeder distance is 1025m. The tram stop density and chosen feeder mode are most important in feeder distance. For feeder mode choice, the following factors are found to be influential: Tram stop density, availability of a bicycle, and frequency of cycling of the tram passenger. Furthermore, the motives of respondents for choosing a stop further away are mostly related to the quality of the transit service and comfort matters, of which avoiding a transfer is named most often. In contrast, the motives for cycling relate mostly to travel time reduction and the built environment. Three important barriers for the bicycle-Tram combination have been discovered: unavailability of a bicycle, insufficient and unsafe bicycle parking places. Infrequent users of the bicycle-Tram combination are more inclined to travel further to a stop that suits them better.

Original language	English
Title of host publication	MT-ITS 2019 - 6th International Conference on Models and Technologies for Intelligent Transportation Systems
Publisher	Institute of Electrical and Electronics Engineers (IEEE)
Number of pages	5
ISBN (Electronic)	9781538694848
DOIs	https://doi.org/10.1109/MTITS.2019.8883361
Publication status	Published - 2019
Event	6th International Conference on Models and Technologies for Intelligent Transportation Systems, MT-ITS 2019 - Krakow, Poland Duration: 5 Jun 2019 → 7 Jun 2019

Conference

Conference	6th International Conference on Models and Technologies for Intelligent Transportation Systems, MT-ITS 2019
Country/Territory	Poland
City	Krakow
Period	5/06/19 → 7/06/19

Bibliographical note

Green Open Access added to TU Delft Institutional Repository ‘You share, we take care!’ – Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public.

Keywords

bicycle
catchment area
feeder distance
tram
walking

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1109/MTITS.2019.8883361

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Cite this

Rijsman, L., Van Oort, N., Ton, D., Hoogendoorn, S., Molin, E., & Teijl, T. (2019). Walking and bicycle catchment areas of tram stops: Factors and insights. In MT-ITS 2019 - 6th International Conference on Models and Technologies for Intelligent Transportation Systems Article 8883361 Institute of Electrical and Electronics Engineers (IEEE). https://doi.org/10.1109/MTITS.2019.8883361

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abstract = "Pollution and congestion are important issues in urban mobility. These can potentially be solved by multimodal transport, such as the bicycle-Transit combination, which benefits from the flexible aspect of the bicycle and the wider spatial range of public transport. In addition, the bicycle can increase the catchment areas of public transport stops. Most transit operators consider a fixed 400m buffer catchment area. Currently, not much is known about what influences the size of catchment areas, especially for the bicycle as a feeder mode. Bicycles allow for reaching a further stop in order to avoid a transfer, but it is not clear whether travelers actually do this. This paper aims to fill this knowledge gap by assessing which factors affect feeder distance and feeder mode choice. Data are collected by an on-board transit revealed preference survey among tram travelers in The Hague, The Netherlands. Both regression models and a qualitative analysis are performed to identify the factors that influence feeder distance and feeder mode choice. Results show that the median walking feeder distance is 380m, and the median cycling feeder distance is 1025m. The tram stop density and chosen feeder mode are most important in feeder distance. For feeder mode choice, the following factors are found to be influential: Tram stop density, availability of a bicycle, and frequency of cycling of the tram passenger. Furthermore, the motives of respondents for choosing a stop further away are mostly related to the quality of the transit service and comfort matters, of which avoiding a transfer is named most often. In contrast, the motives for cycling relate mostly to travel time reduction and the built environment. Three important barriers for the bicycle-Tram combination have been discovered: unavailability of a bicycle, insufficient and unsafe bicycle parking places. Infrequent users of the bicycle-Tram combination are more inclined to travel further to a stop that suits them better.",

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Rijsman, L, Van Oort, N, Ton, D, Hoogendoorn, S , Molin, E & Teijl, T 2019, Walking and bicycle catchment areas of tram stops: Factors and insights. in MT-ITS 2019 - 6th International Conference on Models and Technologies for Intelligent Transportation Systems., 8883361, Institute of Electrical and Electronics Engineers (IEEE), 6th International Conference on Models and Technologies for Intelligent Transportation Systems, MT-ITS 2019, Krakow, Poland, 5/06/19. https://doi.org/10.1109/MTITS.2019.8883361

Walking and bicycle catchment areas of tram stops: Factors and insights. / Rijsman, Lotte; Van Oort, Niels; Ton, Danique et al.
MT-ITS 2019 - 6th International Conference on Models and Technologies for Intelligent Transportation Systems. Institute of Electrical and Electronics Engineers (IEEE), 2019. 8883361.

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

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AU - Van Oort, Niels

AU - Ton, Danique

AU - Hoogendoorn, Serge

AU - Molin, Eric

AU - Teijl, Thomas

N1 - Green Open Access added to TU Delft Institutional Repository ‘You share, we take care!’ – Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public.

PY - 2019

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N2 - Pollution and congestion are important issues in urban mobility. These can potentially be solved by multimodal transport, such as the bicycle-Transit combination, which benefits from the flexible aspect of the bicycle and the wider spatial range of public transport. In addition, the bicycle can increase the catchment areas of public transport stops. Most transit operators consider a fixed 400m buffer catchment area. Currently, not much is known about what influences the size of catchment areas, especially for the bicycle as a feeder mode. Bicycles allow for reaching a further stop in order to avoid a transfer, but it is not clear whether travelers actually do this. This paper aims to fill this knowledge gap by assessing which factors affect feeder distance and feeder mode choice. Data are collected by an on-board transit revealed preference survey among tram travelers in The Hague, The Netherlands. Both regression models and a qualitative analysis are performed to identify the factors that influence feeder distance and feeder mode choice. Results show that the median walking feeder distance is 380m, and the median cycling feeder distance is 1025m. The tram stop density and chosen feeder mode are most important in feeder distance. For feeder mode choice, the following factors are found to be influential: Tram stop density, availability of a bicycle, and frequency of cycling of the tram passenger. Furthermore, the motives of respondents for choosing a stop further away are mostly related to the quality of the transit service and comfort matters, of which avoiding a transfer is named most often. In contrast, the motives for cycling relate mostly to travel time reduction and the built environment. Three important barriers for the bicycle-Tram combination have been discovered: unavailability of a bicycle, insufficient and unsafe bicycle parking places. Infrequent users of the bicycle-Tram combination are more inclined to travel further to a stop that suits them better.

AB - Pollution and congestion are important issues in urban mobility. These can potentially be solved by multimodal transport, such as the bicycle-Transit combination, which benefits from the flexible aspect of the bicycle and the wider spatial range of public transport. In addition, the bicycle can increase the catchment areas of public transport stops. Most transit operators consider a fixed 400m buffer catchment area. Currently, not much is known about what influences the size of catchment areas, especially for the bicycle as a feeder mode. Bicycles allow for reaching a further stop in order to avoid a transfer, but it is not clear whether travelers actually do this. This paper aims to fill this knowledge gap by assessing which factors affect feeder distance and feeder mode choice. Data are collected by an on-board transit revealed preference survey among tram travelers in The Hague, The Netherlands. Both regression models and a qualitative analysis are performed to identify the factors that influence feeder distance and feeder mode choice. Results show that the median walking feeder distance is 380m, and the median cycling feeder distance is 1025m. The tram stop density and chosen feeder mode are most important in feeder distance. For feeder mode choice, the following factors are found to be influential: Tram stop density, availability of a bicycle, and frequency of cycling of the tram passenger. Furthermore, the motives of respondents for choosing a stop further away are mostly related to the quality of the transit service and comfort matters, of which avoiding a transfer is named most often. In contrast, the motives for cycling relate mostly to travel time reduction and the built environment. Three important barriers for the bicycle-Tram combination have been discovered: unavailability of a bicycle, insufficient and unsafe bicycle parking places. Infrequent users of the bicycle-Tram combination are more inclined to travel further to a stop that suits them better.

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PB - Institute of Electrical and Electronics Engineers (IEEE)

Y2 - 5 June 2019 through 7 June 2019

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Walking and bicycle catchment areas of tram stops: Factors and insights

Abstract

Conference

Bibliographical note

Keywords

UN SDGs

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