Affiliations: [a] PARK Research Group, Department of Informatics, University of Huddersfield, Huddersfield, UK
| [b] Department of Informatics, King’s College London, London, UK
| [c] KAM Futures, Manchester, UK
Correspondence:
[*]
Corresponding author: Lukáš Chrpa, PARK Research Group, Department of Informatics, University of Huddersfield, Huddersfield, UK. Tel.: +44 1484 473396; Fax: +44 1484 421106; E-mail: l.chrpa@hud.ac.uk.
Abstract: The global growth in urbanisation increases the demand for services including road transport infrastructure, presenting challenges in terms of mobility. These trends are occurring in the context of concerns around environmental issues of poor air quality and transport related carbon dioxide emissions. One out of several ways to help meet these challenges is in the intelligent routing of road traffic through congested urban areas. Our goal is to show the feasibility of using automated planning to perform this routing, taking into account a knowledge of vehicle types, vehicle emissions, route maps, air quality zones, etc. Specifically focusing on air quality concerns, in this paper we investigate the problem where the goals are to minimise overall vehicle delay while utilising network capacity fully, and respecting air quality limits. We introduce an automated planning approach for the routing of traffic to address these areas. The approach has been evaluated on micro-simulation models that use real-world data supplied by our industrial partner. Results show the feasibility of using AI planning technology to deliver efficient routes for vehicles that avoid the breaking of air quality limits, and that balance traffic flow through the network.