A novel eco-routing navigation strategy and energy consumption modeling approach for electric vehicles are presented in this work. Speed fluctuations and road network infrastructure have a large impact on vehicular energy consumption. Neglecting these effects may lead to large errors in eco-routing navigation, which could trivially select the route with the lowest average speed. We propose an energy consumption model that considers both accelerations and impact of the road infrastructure, also separating the costs of all the possible turning movements in the transportation network by means of the adjoint graph. The approach makes use of only aggregated data available from existing map services. We demonstrate that the proposed strategy is more effective and reliable than the existing approaches in predicting vehicle energy consumption and in suggesting an energy-efficient route.
A model-based eco-routing strategy for electric vehicles in large urban networks
2016-11-01
434609 byte
Conference paper
Electronic Resource
English
Model-Based Eco-Routing Strategy for Electric Vehicles in Large Urban Networks
Springer Verlag | 2017
|A ROUTING FEEDBACK STRATEGY for URBAN ROAD NETWORKS
British Library Conference Proceedings | 2000
|Optimization-Based Control Strategy for Large Hybrid Electric Vehicles
British Library Conference Proceedings | 2018
|Optimization-Based Control Strategy for Large Hybrid Electric Vehicles
SAE Technical Papers | 2018
|