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Modeling and Engineering Constrained Shortest Path Algorithms for Battery Electric Vehicles

Moritz Baum, Julian Dibbelt, Dorothea Wagner, Tobias Zündorf

2020Transportation Science37 citationsDOIOpen Access PDF

Abstract

We study the problem of computing constrained shortest paths for battery electric vehicles. Because battery capacities are limited, fastest routes are often infeasible. Instead, users are interested in fast routes on which the energy consumption does not exceed the battery capacity. For that, drivers can deliberately reduce speed to save energy. Hence, route planning should provide both path and speed recommendations. To tackle the resulting [Formula: see text]-hard optimization problem, previous work trades correctness or accuracy of the underlying model for practical running times. We present a novel framework to compute optimal constrained shortest paths (without charging stops) for electric vehicles that uses more realistic physical models, while taking speed adaptation into account. Careful algorithm engineering makes the approach practical even on large, realistic road networks: We compute optimal solutions in less than a second for typical battery capacities, matching the performance of previous inexact methods. For even faster query times, the approach can easily be extended with heuristics that provide high quality solutions within milliseconds.

Topics & Concepts

Computer scienceHeuristicsShortest path problemBattery (electricity)CorrectnessMathematical optimizationConstrained Shortest Path FirstPath (computing)Dijkstra's algorithmEnergy consumptionMatching (statistics)Battery electric vehicleEnergy (signal processing)AlgorithmEngineeringK shortest path routingMathematicsElectrical engineeringProgramming languageQuantum mechanicsPower (physics)Theoretical computer scienceOperating systemStatisticsGraphPhysicsVehicle Routing Optimization MethodsTransportation and Mobility InnovationsTransportation Planning and Optimization
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