Yun Liu

TL;DR: In this article, a new control strategy that enables photovoltaic systems to adjust the active power outputs and provide frequency regulation to power systems is proposed. But the focus of this paper is to develop a new controller that enables PVs to adjust active power output to provide ancillary services.

TL;DR: A distributed robust energy management scheme for multiple interconnected microgrids (MGs) that aims to optimize the total operational cost of the MGs through energy trading with neighboring MGs and the main grid in the real-time energy market.

TL;DR: This paper proposes the optimal operation of MMGs by a cooperativeEnergy and reserve scheduling model, in which energy and reserve can be cooperatively utilized among M MGs.

TL;DR: An attack-robust distributed economic dispatch strategy is proposed where every DG can monitor the behavior of its in-neighbors and has the network connectivity information and detects the misbehaving DGs residing in the network and gradually isolates them so that the remaining well-behaved DGs could still accomplish the economic dispatch.

TL;DR: In this article, a distributed real-time optimal power flow control strategy is introduced to avoid the need of load forecast and achieve the same objective as hierarchical control with a feedback mechanism in real time, that is to recover the nominal system frequency and maintain the active power of the generators close to the optimal operational condition in the presence of any disturbance.