Analysis and simulation of intervention strategies against bus bunching by means of an empirical agent-based model
In this paper, we propose an empirically based Monte Carlo bus-network (EMB) model as a test bed to simulate intervention strategies to overcome the inefficiencies of bus bunching. The EMB model is an agent-based model which utilizes the positional and temporal data of the buses obtained from the Gl...
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sg-ntu-dr.10356-1468292023-03-11T20:06:45Z Analysis and simulation of intervention strategies against bus bunching by means of an empirical agent-based model Quek, Wei Liang Chung, Ning Ning Saw, Vee-Liem Chew, Lock Yue School of Humanities School of Physical and Mathematical Sciences Data Science and Artificial Intelligence Research Centre Complexity Institute Science::Physics Intervention Strategies Bus Bunching In this paper, we propose an empirically based Monte Carlo bus-network (EMB) model as a test bed to simulate intervention strategies to overcome the inefficiencies of bus bunching. The EMB model is an agent-based model which utilizes the positional and temporal data of the buses obtained from the Global Positioning System (GPS) to constitute (1) a set of empirical velocity distributions of the buses and (2) a set of exponential distributions of interarrival time of passengers at the bus stops. Monte Carlo sampling is then performed on these two derived probability distributions to yield the stochastic dynamics of both the buses' motion and passengers' arrival. Our EMB model is generic and can be applied to any real-world bus network system. In particular, we have validated the model against the Nanyang Technological University's Shuttle Bus System by demonstrating its accuracy in capturing the bunching dynamics of the shuttle buses. Furthermore, we have analyzed the efficacy of three intervention strategies: holding, no-boarding, and centralized-pulsing, against bus bunching by incorporating the rule set of these strategies into the model. Under the scenario where the buses have the same velocity, we found that all three strategies improve both the waiting and travelling times of the commuters. However, when the buses have different velocities, only the centralized-pulsing scheme consistently outperforms the control scenario where the buses periodically bunch together. Nanyang Technological University Published version This work was supported by the Joint WASP/NTU Programme (Project no. M4082189) and the DSAIR@NTU Grant (Project no. M4082418). 2021-03-11T09:01:20Z 2021-03-11T09:01:20Z 2021 Journal Article Quek, W. L., Chung, N. N., Saw, V. & Chew, L. Y. (2021). Analysis and simulation of intervention strategies against bus bunching by means of an empirical agent-based model. Complexity, 2021. https://dx.doi.org/10.1155/2021/2606191 1076-2787 0000-0003-3621-3799 0000-0003-1366-8205 https://hdl.handle.net/10356/146829 10.1155/2021/2606191 2-s2.0-85099502568 2021 en M4082189 M4082418 Complexity © 2021 Wei Liang Quek et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. application/pdf |
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Science::Physics Intervention Strategies Bus Bunching Quek, Wei Liang Chung, Ning Ning Saw, Vee-Liem Chew, Lock Yue Analysis and simulation of intervention strategies against bus bunching by means of an empirical agent-based model |
| description |
In this paper, we propose an empirically based Monte Carlo bus-network (EMB) model as a test bed to simulate intervention strategies to overcome the inefficiencies of bus bunching. The EMB model is an agent-based model which utilizes the positional and temporal data of the buses obtained from the Global Positioning System (GPS) to constitute (1) a set of empirical velocity distributions of the buses and (2) a set of exponential distributions of interarrival time of passengers at the bus stops. Monte Carlo sampling is then performed on these two derived probability distributions to yield the stochastic dynamics of both the buses' motion and passengers' arrival. Our EMB model is generic and can be applied to any real-world bus network system. In particular, we have validated the model against the Nanyang Technological University's Shuttle Bus System by demonstrating its accuracy in capturing the bunching dynamics of the shuttle buses. Furthermore, we have analyzed the efficacy of three intervention strategies: holding, no-boarding, and centralized-pulsing, against bus bunching by incorporating the rule set of these strategies into the model. Under the scenario where the buses have the same velocity, we found that all three strategies improve both the waiting and travelling times of the commuters. However, when the buses have different velocities, only the centralized-pulsing scheme consistently outperforms the control scenario where the buses periodically bunch together. |
| author2 |
School of Humanities |
| author_facet |
School of Humanities Quek, Wei Liang Chung, Ning Ning Saw, Vee-Liem Chew, Lock Yue |
| format |
Article |
| author |
Quek, Wei Liang Chung, Ning Ning Saw, Vee-Liem Chew, Lock Yue |
| author_sort |
Quek, Wei Liang |
| title |
Analysis and simulation of intervention strategies against bus bunching by means of an empirical agent-based model |
| title_short |
Analysis and simulation of intervention strategies against bus bunching by means of an empirical agent-based model |
| title_full |
Analysis and simulation of intervention strategies against bus bunching by means of an empirical agent-based model |
| title_fullStr |
Analysis and simulation of intervention strategies against bus bunching by means of an empirical agent-based model |
| title_full_unstemmed |
Analysis and simulation of intervention strategies against bus bunching by means of an empirical agent-based model |
| title_sort |
analysis and simulation of intervention strategies against bus bunching by means of an empirical agent-based model |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/146829 |
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1761781864199094272 |