Battery-only electric vehicles (BEVs) generally offer better air quality through lowered
emissions, along with energy savings and security. The issue of long-duration battery …

The transition to electric vehicles (EV) faces two major barriers. On one hand, EV batteries
are still expensive and limited by range, owing to the lack of technology breakthrough. On …

With the recent advances in battery technology and the resulting decrease in the charging
times, public charging stations are becoming a viable option for Electric Vehicle (EV) drivers …

This study investigates the electric vehicle (EV) traffic equilibrium and optimal deployment of
charging locations subject to range limitation. The problem is similar to a network design …

The paper develops a simulation–optimization model that determines where to locate
electric vehicle chargers to maximize their use by privately owned electric vehicles. Applying …

This paper studies electric vehicle charger location problems and analyzes the impact of
public charging infrastructure deployment on increasing electric miles traveled, thus …

Vehicle electrification has been identified as one of the most important roles in decreasing
greenhouse gas (GHG) emissions in transportation. Proper placement of charging …

The utilization of electric vehicle (EV) charging equipment is a key driver of charging station
economics, but current trends and factors related to the utilization of public charging …

Access to electric vehicle (EV) charging stations will impact EV adoption rates, use
decisions, electrified mile shares, petroleum demand, and power consumption across times …

As utilities and private sector charging networks begin to move beyond the early pilot stage
and start building charging infrastructure for electric vehicles (EVs) at scale, it is increasingly …