Posts tagged modelling
New generation of public transport models: predicting ridership by smartcard data
In the public transport industry we observe the rise of a new generation of transport demand models. We applied Dutch smart card data for analysis of passenger volumes and routing and performed what-if analyses by using existing transport planning software. We focused specifically on public transport operators by providing them relative simple (easy to build, low calculation time) models to perform these what-if analyses. The data, including transfer information, is converted to passengers per line and an OD-matrix between stops. This matrix is assigned to the network to reproduce the measured passenger flows. After this step, what-if analysis becomes possible. The effects of line changes on route choice can already be investigated when fixed demand is assumed. However, by introducing an elastic demand model the realism of the modeled effects is improved, because network changes induce changes in level of service, which affects the demand for public transportation. This elastic demand model was applied on a case study in The Hague. We imported the smart card data into a transport model and connected the data with the network. The tool turned out to be very valuable for the operator to gain insights into the effects of small network changes.
In addition to this basic model, we also applied a capacity constrained assignment method. The most important aspects on which passengers base their choice for public transport travelling are the perceived travel time, costs, reliability and comfort. Despite this importance, comfort is often not explicitly considered when predicting demand. The case study results indicate that not considering capacity and comfort effects can lead to a substantial underestimation of effects of certain measures aiming to improve public transport. This means that benefits of measures that reduce crowding for both passengers and operators can now be quantified and incorporated in the decision-making process. We also illustrate that this extended modelling framework can be applied in practice, requiring short calculation times and leading to better predictions of public transport demand.
Find our ETC 2015 presentation HERE
Improving public transport decision making, planning and operations by using Big Data: Cases from Sweden and the Netherlands
New big data (sources) in the public transport industry enable to deal with major challenges such as elevating efficiency, increasing passenger ridership and satisfaction and facilitate the information flow between service providers and service users. This paper presents two actual cases from the Netherlands and Sweden in which automated data sources were utilized to support the planning and operational processes. The cases illustrate the benefits of using smartcard and vehicle positioning data. Due to the data (processing), valuable insights were gained helping to make the right choices and improve the public transport system.
Read our paper: Workshop paper IEEE ITSC 2015 and check our presentation: Presentation IEEE ITSC15
Robustness of multi-level public transport networks: A methodology to quantify robustness from a passenger perspective
Despite the importance of robust public transport networks, this topic has not been considered from a full passenger perspective yet in scientific literature and practice. To our best knowledge, this study is the first in which both exposure to large, non-recurrent disturbances and impact of these disturbances are analysed in a systematic and realistic way. Contrary to single-level network perspectives, we considered the integrated, total multi-level public transport network which remains available when a disturbance occurs. We developed a new methodology to identify the most vulnerable links in the multi-level public transport network and to quantify the societal costs of non-robustness of these vulnerable links. Besides, applying our methodology enables quantification of the robustness benefits of robustness measures, next to the costs of such measures. Therefore, our methodology can support and rationalize the decision-making process of public transport operators and authorities regarding the implementation of different robustness measures.
Read the full paper: INSTR2015-Yap et al.
Find our presentation: INSTR2015 Presentation Yap et al.
Data-driven public transport ridership prediction approach including comfort aspects
The most important aspects on which passengers base their choice whether to travel by public transport are the perceived travel time, costs, reliability and comfort. Despite its importance, comfort is often not explicitly considered when predicting demand for public transport. In this paper, we include comfort level in a modelling framework by incorporating capacity in the public transport assignment. This modelling framework is applied in the public transport model of HTM, the urban public transport operator of The Hague. The current transportation demand is directly derived from smart card data and future demand is estimated using an elasticity based approach. The case study results indicate that not considering capacity and comfort effects can lead to a substantial underestimation of effects of certain measures aiming to improve public transport (up to 30%). We also illustrate that this extended modelling framework can be applied in practice: it has a short computation time and leads to better predictions of public transport demand.
Check our presentation: Presentation CASPT2015
Read our full paper: Van Oort et al: Datadriven PT modelling CASPT2015