The availability of charging infrastructure is essential for large-scale adoption of electric
vehicles (EV). Charging patterns and the utilization of infrastructure have consequences not …

The battery electric vehicle (EV) market is in a state of continuing rapid evolution, both in
terms of the battery capacities and charger power ratings that vehicle manufacturers are …

Although the concept of transportation electrification holds enormous prospects in
addressing the global environmental pollution problem, in reality the market penetration of …

The large scale deployment of electric vehicles in urban environment will play a key-role
over the next decades to reduce air-pollutants in densely populated areas, but it will also …

This paper addresses the problem of optimally placing charging stations in urban areas.
Two optimization criteria are used: maximizing the number of reachable households and …

Current trends suggest that there is a substantial increase in the overall usage of electric
vehicles (EVs). This, in turn, is causing drastic changes in the transportation industry and …

Take-up rates of electric vehicles (EV) are increasing and are predicted to accelerate
rapidly. Public EV charging networks will be required to support future EV fleets. If …

A massive introduction of plug-in electric vehicles (PEVs) in the transportation sector would
likely increase the total electricity consumption. Depending on how and when the PEVs are …

Vehicles around the world are being converted to electric power in order to combat climate
change and lower pollution levels. Sustaining this process calls for more electric vehicle …

Electric vehicle (EV) as one of the most promising solutions to reduce the greenhouse
emission is developing faster than ever. With the increasing number of EVs, the additional …