Litcius/Paper detail

Electric Vehicle Routing with Public Charging Stations

Nicholas Kullman, Justin C. Goodson, Jorge E. Mendoza

2021Transportation Science75 citationsDOIOpen Access PDF

Abstract

We introduce the electric vehicle routing problem with public-private recharging strategy in which vehicles may recharge en route at public charging infrastructure as well as at a privately-owned depot. To hedge against uncertain demand at public charging stations, we design routing policies that anticipate station queue dynamics. We leverage a decomposition to identify good routing policies, including the optimal static policy and fixed-route-based rollout policies that dynamically respond to observed queues. The decomposition also enables us to establish dual bounds, providing a measure of goodness for our routing policies. In computational experiments using real instances from industry, we show the value of our policies to be within 10% of a dual bound. Furthermore, we demonstrate that our policies significantly outperform the industry-standard routing strategy in which vehicle recharging generally occurs at a central depot. Our methods stand to reduce the operating costs associated with electric vehicles, facilitating the transition from internal-combustion engine vehicles.

Topics & Concepts

Leverage (statistics)Routing (electronic design automation)QueueStatic routingComputer scienceElectric vehicleOperations researchComputer networkEngineeringRouting protocolPhysicsQuantum mechanicsMachine learningPower (physics)Electric Vehicles and InfrastructureVehicle Routing Optimization MethodsTransportation and Mobility Innovations