Highlights Identifying influential factors to the uptake of Autonomous Electric Vehicles (AEVs) Reviewing potential impacts of the AEV diffusion on the associated urban systems. Building the linkages between the AEV diffusion and the associated urban systems. Proposing an agent-based spatial integrated urban model for the AEV diffusion.
Abstract The future Autonomous Vehicles (AVs) are likely to be electric. We started with a review of the adoption of AVs, Electric Vehicles (EVs) and Autonomous Electric Vehicles (AEVs), as well as the six associated urban sub-systems, namely transportation, land use, environment, energy, economy, and population systems, in order to find evidence about the linkages and interactions between the diffusion of AEVs and the six sub-systems. Based on the review, we argued that an integrated urban model, which takes the linkages and interactions into account, was needed to fully understand the adoption and impacts of AEVs. Furthermore, we conducted a conceptual design of an integrated model for AEVs (without explicit modelling), and demonstrated how to update an existing agent-based Land Use and Transport Interaction (LUTI) model by incorporating AEV components. The resulting integrated model of AEVs would help different AEV-related stakeholders (e.g., local authorities) in their decision-making.
Integrated modelling of autonomous electric vehicle diffusion: From review to conceptual design
2020-01-01
Article (Journal)
Electronic Resource
English
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