Electric vehicle route planning using real-world charging infrastructure in Germany
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[1] M. García-Martínez,et al. Comparative life cycle assessment of conventional, electric and hybrid passenger vehicles in Spain , 2021, Journal of Cleaner Production.
[2] M. Hauschild,et al. Are the electric vehicles more sustainable than the conventional ones? Influences of the assumptions and modeling approaches in the case of typical cars in China , 2020 .
[3] J. Dvarioniene,et al. Comparative environmental life cycle assessment of electric and conventional vehicles in Lithuania , 2020, Journal of Cleaner Production.
[4] Frank Gauterin,et al. An Investigation Into Key Influence Factors for the Everyday Usability of Electric Vehicles , 2020, IEEE Open Journal of Vehicular Technology.
[5] Falko Dressler,et al. Planning Ahead for EV: Total Travel Time Optimization for Electric Vehicles , 2019, 2019 IEEE Intelligent Transportation Systems Conference (ITSC).
[6] Simon Moser,et al. Allocation of e-car charging: Assessing the utilization of charging infrastructures by location , 2019, Transportation Research Part A: Policy and Practice.
[7] Mohammad Sadegh Sepasian,et al. Scenario-based planning of fast charging stations considering network reconfiguration using cooperative coevolutionary approach , 2019, Journal of Energy Storage.
[8] Istvan Vokony,et al. Business Models to Exploit Possibilities of E-mobility: An Electricity Distribution System Operator Perspective , 2019, Periodica Polytechnica Transportation Engineering.
[9] Eren Özceylan,et al. Optimal siting of electric vehicle charging stations: A GIS-based fuzzy Multi-Criteria Decision Analysis , 2018, Energy.
[10] Luca Vassio,et al. Data Driven Optimization of Charging Station Placement for EV Free Floating Car Sharing , 2018, 2018 21st International Conference on Intelligent Transportation Systems (ITSC).
[11] Andrew Cruden,et al. Electric vehicle fast charging station usage and power requirements , 2018, Energy.
[12] Dorothea Wagner,et al. Modeling and Engineering Constrained Shortest Path Algorithms for Battery Electric Vehicles , 2020, ESA.
[13] Gang Chen,et al. A Spatial-Temporal Model for Locating Electric Vehicle Charging Stations , 2017 .
[14] Markus Lienkamp,et al. Analysis of the charging infrastructure for battery electric vehicles in commercial companies , 2017, 2017 IEEE Intelligent Vehicles Symposium (IV).
[15] Dimitrios Efthymiou,et al. Electric vehicles charging infrastructure location: a genetic algorithm approach , 2017, European Transport Research Review.
[16] Lin Gong,et al. INTEGRATED PLANNING OF BEV PUBLIC FAST-CHARGING STATIONS , 2016 .
[17] Xingshe Zhou,et al. To save money or to save time: Intelligent routing design for plug-in hybrid electric vehicle , 2016 .
[18] Michael T. Goodrich,et al. Two-phase bicriterion search for finding fast and efficient electric vehicle routes , 2014, SIGSPATIAL/GIS.
[19] Andrea J. Goldsmith,et al. Optimized path planning for electric vehicle routing and charging , 2014, 2014 52nd Annual Allerton Conference on Communication, Control, and Computing (Allerton).
[20] Jing Wu,et al. Joint Charging and Routing Optimization for Electric Vehicle Navigation Systems , 2014 .
[21] Michael Kuby,et al. Comparing the p-median and flow-refueling models for locating alternative-fuel stations , 2010 .