Publisher DOI: 10.3390/land10111179
Title: Incorporating multi-modal travel planning into an agent-based model : a case study at the train station kellinghusenstraße in hamburg
Language: English
Authors: Lenfers, Ulfia  
Ahmady-Moghaddam, Nima 
Glake, Daniel 
Ocker, Florian 
Ströbele, Jonathan 
Clemen, Thomas  
Keywords: Decision support systems; MARS; Multi-agent systems; Multi-modal travel; Smart cities; Spatial simulation; Sustainable urbanism; Urban governance; Urban planning
Issue Date: 3-Nov-2021
Publisher: MDPI
Source: article number : 1179
Journal or Series Name: Land 
Volume: 10
Issue: 11
Abstract: 
Models can provide valuable decision support in the ongoing effort to create a sustainable and effective modality mix in urban settings. Modern transportation infrastructures must meaningfully combine public transport with other mobility initiatives such as shared and on-demand systems. The increase of options and possibilities in multi-modal travel implies an increase in complexity when planning and implementing such an infrastructure. Multi-agent systems are well-suited for addressing questions that require an understanding of movement patterns and decision processes at the individual level. Such models should feature intelligent software agents with flexible internal logic and accurately represent the core functionalities of new modalities. We present a model in which agents can choose between owned modalities, station-based bike sharing modalities, and free-floating car sharing modalities as they exit the public transportation system and seek to finish their personal multi-modal trip. Agents move on a multi-modal road network where dynamic constraints in route planning are evaluated based on an agent’s query. Modality switch points (MSPs) along the route indicate the locations at which an agent can switch from one modality to the next (e.g., a bike rental station to return a used rental bike and continue on foot). The technical implementation of MSPs within the road network was a central focus in this work. To test their efficacy in a controlled experimental setting, agents optimized only the travel time of their multi-modal routes. However, the functionalities of the model enable the implementation of different optimization criteria (e.g., financial considerations or climate neutrality) and unique agent preferences as well. Our findings show that the implemented MSPs enable agents to switch between modalities at any time, allowing for the kind of versatile, individual, and spontaneous travel that is common in modern multi-modal settings.
URI: http://hdl.handle.net/20.500.12738/12331
ISSN: 2073-445X
Review status: This version was peer reviewed (peer review)
Institute: Department Informatik 
Fakultät Technik und Informatik 
Type: Article
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