Multi-uncertainties impose enormous challenges to the optimal scheduling of power
systems, and two-stage robust optimization (TSRO) theory has been widely investigated and …

The interdependences between electric power systems and transportation systems are
becoming increasingly tight as the market share of electric vehicles keeps booming …

Power systems are exposed to various physical threats due to extreme events, technical
failures, human errors, and deliberate damage. Physical threats are among the most …

To meet the diverse operational requirements of microgrids with multi-uncertainties, a tri-
level two-stage mixed-integer robust optimization model is proposed to solve the optimal …

Growing penetration of natural gas-fired power units in power systems due to their superior
characteristics has significantly increased the interaction between power system and natural …

The growing market share of electric vehicles embodies the remarkable progress of
transportation electrification. Battery swapping station serves as a critical infrastructure for …

Smart meter data are crucial information for applications in distribution management system
(DMS) to manage the distribution system in a reliable and secure manner. However, the …

The booming development of the car-sharing industry and the continuous increase in the
market share of electric vehicles demand effective dispatching strategies that consider …

In this paper, a model for tri-level coordinated expansion planning of transmission and
electrical energy storage systems (ESSs) is proposed to decrease the destructive effects of …

Research on preventive generation dispatch schemes for resilient power system operation
is often based on the DC power flow model, ignoring the influence of reactive power and …