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Title: Evolutionary Modeling of Large-Scale Public Transport Networks
Accession Number: 01660896
Record Type: Component
Abstract: A genetic algorithm to design efficient large-scale public transport networks is extended. It goes beyond existing approaches by incorporating a dynamic demand response towards both changes in the network and external disruptions. The algorithm is based on an agent-based (MATSim) simulation and tested for the city of Zurich. Compared to the existing public transport system, it proposes a sparser network with substantially higher frequencies. By doing so, the algorithm predicts a higher transit ridership at a lower level of subsidies, thus increasing the effectiveness of public transportation. Moreover, it reliably identifies corridors for potential capacity upgrades. The approach may help transport planners to assess their existing public transport networks and to plan public transport infrastructure for the era of automated vehicles.
Supplemental Notes: This paper was sponsored by TRB committee AP025 Standing Committee on Public Transportation Planning and Development.
Report/Paper Numbers: 18-02851
Language: English
Authors: Manser, PatrickBecker, HenrikHörl, SebastianAxhausen, Kay WPagination: 22p
Publication Date: 2018
Conference:
Transportation Research Board 97th Annual Meeting
Location:
Washington DC, United States Media Type: Digital/other
Features: Figures; References; Tables
TRT Terms: Identifier Terms: Geographic Terms: Subject Areas: Planning and Forecasting; Public Transportation
Source Data: Transportation Research Board Annual Meeting 2018 Paper #18-02851
Files: TRIS, TRB, ATRI
Created Date: Jan 8 2018 10:41AM
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