Travel demand management measures/policies are important to sustain positive changes among individuals’ travel behaviour. An integrated agent-based microsimulation platform provides a rich framework for examining such interventions to assess their impacts using indicators about demand as well as supply side. This paper presents an approach where individual schedules, derived from a lighter version of an activity-based model, are fed into a Multi-Agent Transport Simulation (MATSIM) framework. Simulations are performed for two European cities i.e. Hasselt (Belgium) and Bologna (Italy). After calibrating the modelling framework against aggregate traffic counts for the base case, the impacts of a few traffic management policies (restricting car access, increase in bus frequency) are examined. The results indicate that restricting car access is more effective in terms of reducing traffic from the network and also shifting car drivers/passengers to other modes of travel. The enhancement of bus infrastructure in relation to increase in frequency caused shifting of bicyclist towards public transport, which is an undesirable result of the policy if the objective is to improve sustainability and environment. In future research, the framework will be enhanced to integrate emission and air dispersion models to ascertain effects on air quality as a result of such interventions.

Adnan, M., Outay, F., Ahmed, S., Brattich, E., di Sabatino, S., Janssens, D. (2021). Integrated agent-based microsimulation framework for examining impacts of mobility-oriented policies. PERSONAL AND UBIQUITOUS COMPUTING, 25, 205-217 [10.1007/s00779-020-01363-w].

Integrated agent-based microsimulation framework for examining impacts of mobility-oriented policies

Brattich, Erika;di Sabatino, Silvana;
2021

Abstract

Travel demand management measures/policies are important to sustain positive changes among individuals’ travel behaviour. An integrated agent-based microsimulation platform provides a rich framework for examining such interventions to assess their impacts using indicators about demand as well as supply side. This paper presents an approach where individual schedules, derived from a lighter version of an activity-based model, are fed into a Multi-Agent Transport Simulation (MATSIM) framework. Simulations are performed for two European cities i.e. Hasselt (Belgium) and Bologna (Italy). After calibrating the modelling framework against aggregate traffic counts for the base case, the impacts of a few traffic management policies (restricting car access, increase in bus frequency) are examined. The results indicate that restricting car access is more effective in terms of reducing traffic from the network and also shifting car drivers/passengers to other modes of travel. The enhancement of bus infrastructure in relation to increase in frequency caused shifting of bicyclist towards public transport, which is an undesirable result of the policy if the objective is to improve sustainability and environment. In future research, the framework will be enhanced to integrate emission and air dispersion models to ascertain effects on air quality as a result of such interventions.
2021
Adnan, M., Outay, F., Ahmed, S., Brattich, E., di Sabatino, S., Janssens, D. (2021). Integrated agent-based microsimulation framework for examining impacts of mobility-oriented policies. PERSONAL AND UBIQUITOUS COMPUTING, 25, 205-217 [10.1007/s00779-020-01363-w].
Adnan, Muhammad; Outay, Fatma; Ahmed, Shiraz; Brattich, Erika; di Sabatino, Silvana; Janssens, Davy
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