This paper presents a methodology for developing a hybrid agent-based micro-simulation model to capture the impacts of commuter travel mode choices on a University campus transport network. The proposed methodology involves: (i) developing realistic population of commuter agents (students and staff); (ii) assigning activity lists and travel mode choices to agents using machine learning method; and, (iii) traffic micro-simulation of the study area transport network. This furthers the understanding of current transport modal distributions, factors affecting the travel mode choice decisions, and, network performance through a number of hypothetical travel scenarios
An agent-based transport simulation model is used to examine the impacts of Autonomous Vehicles (AVs...
This paper presents an agent-based simulation, called TransMob, of transport demand and residential ...
AbstractThe movements of modes of transport in network can be analyzed with micro-simulation method....
This paper presents a methodology for developing a hybrid agent-based micro-simulation model to capt...
© 2019 Travel mode choices are a result of several factors and how they affect individual travellers...
Agent based modelling has emerged as a promising tool to provide planners with insights on social be...
Reviewing previous studies on using computational models for analyzing the effect of transport polic...
An agent-based simulation model for supporting the decision making in urban transport planning is pr...
Understanding travel mode choice behaviour is key to effective management of transport networks, man...
The movements of modes of transport in network can be analyzed with micro-simulation method. As the ...
Individual traffic significantly contributes to climate change and environmental degradation. Theref...
Bus Rapid Transit (BRT) has been widely recognized as an affordable and effective mass transport sys...
International audienceFor instance, self service electric scooter or VTC are new ways of moving with...
"The MATSim (Multi-Agent Transport Simulation) software project was started around 2006 with the goa...
This paper is focused on calibration of an intelligent network simulation model (INSIM) with real-li...
An agent-based transport simulation model is used to examine the impacts of Autonomous Vehicles (AVs...
This paper presents an agent-based simulation, called TransMob, of transport demand and residential ...
AbstractThe movements of modes of transport in network can be analyzed with micro-simulation method....
This paper presents a methodology for developing a hybrid agent-based micro-simulation model to capt...
© 2019 Travel mode choices are a result of several factors and how they affect individual travellers...
Agent based modelling has emerged as a promising tool to provide planners with insights on social be...
Reviewing previous studies on using computational models for analyzing the effect of transport polic...
An agent-based simulation model for supporting the decision making in urban transport planning is pr...
Understanding travel mode choice behaviour is key to effective management of transport networks, man...
The movements of modes of transport in network can be analyzed with micro-simulation method. As the ...
Individual traffic significantly contributes to climate change and environmental degradation. Theref...
Bus Rapid Transit (BRT) has been widely recognized as an affordable and effective mass transport sys...
International audienceFor instance, self service electric scooter or VTC are new ways of moving with...
"The MATSim (Multi-Agent Transport Simulation) software project was started around 2006 with the goa...
This paper is focused on calibration of an intelligent network simulation model (INSIM) with real-li...
An agent-based transport simulation model is used to examine the impacts of Autonomous Vehicles (AVs...
This paper presents an agent-based simulation, called TransMob, of transport demand and residential ...
AbstractThe movements of modes of transport in network can be analyzed with micro-simulation method....