The uptake of electric vehicles supports decarbonization and increasingly interconnects the
electricity and transport system. While the integration of electric vehicles could challenge …

Electric vehicles will contribute to emissions reductions in the United States, but their
charging may challenge electricity grid operations. We present a data-driven, realistic model …

The electrification of urban transportation systems is a critical step toward achieving low-
carbon transportation and meeting climate commitments. With the support of the Chinese …

Rapidly increasing uptake of Electric Vehicles (EVs) is expected to have a significant impact
on electrical power distribution networks. Considerable work has been carried out to …

With high electric vehicle (EV) adoption, optimization of the charging process of EVs is
becoming increasingly important. Although the CO 2 emission impact of EVs is heavily …

A rapid increase in the number of electric vehicles is expected in coming years, driven by
government incentives and falling battery prices. Charging these vehicles will add significant …

The rely on internal combustion engines is gradually decreased with the recent evolution of
electric vehicles (EVs) in the automotive industry. Electric motors are replacing the energy …

While electric vehicles (EVs) are expected to support decarbonizing transport, EVs can
challenge the electricity system. Investigating the EV charging load and its flexibility, eg, by …

We describe the architecture and algorithms of the Adaptive Charging Network (ACN), which
was first deployed on the Caltech campus in early 2016 and is currently operating at over …

Cloud transients cause rapid fluctuations in the output of photovoltaic (PV) systems, which
can significantly affect the voltage levels in a low-voltage (LV) grid with high penetration of …