Highlights We define an agent model for the individual mobility behavior during Carpooling. We define the criteria and the function to constitute the carpooling community. We define a protocol for the negotiation of the details of the carpooling trips. We implement the model with the Janus multiagent platform and its simulator JaSim. We run simulations on the FEATHERS data of the population of Flanders, Belgium.
Abstract Carpooling is an emerging alternative transportation mode that is eco-friendly and sustainable as it enables commuters to save time, travel resource, reduce emission and traffic congestion. The procedure of carpooling consists of a number of steps namely; (i) create a motive to carpool, (ii) communicate this motive with other agents, (iii) negotiate a plan with the interested agents, (iv) execute the agreed plans, and (v) provide a feedback to all concerned agents. In this paper, we present a conceptual design of an agent-based model (ABM) for the carpooling a that serves as a proof of concept. Our model for the carpooling application is a computational model that is used for simulating the interactions of autonomous agents and to analyze the effects of change in factors related to the infrastructure, behavior and cost. In our carpooling application, we use agent profiles and social networks to initiate our agent communication model and then employ a route matching algorithm, and a utility function to trigger the negotiation process between agents. We developed a prototype of our agent-based carpooling application based on the work presented in this paper and carried out a validation study of our results with real data collected in Flanders, Belgium.
Multi-agent simulation of individual mobility behavior in carpooling
2013-12-31
16 pages
Article (Journal)
Electronic Resource
English
Multi-agent simulation of individual mobility behavior in carpooling
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