The conventional volt-VAR control (VVC) in distribution systems has limitations in solving the overvoltage problem caused by massive solar photovoltaic (PV) deployment. As an alternative method, VVC using solar PV smart inverters (PVSIs) has come into the limelight, which can respond quickly and effectively to solve the overvoltage problem by absorbing reactive power. However, the network power loss, that is, the sum of line losses in the distribution network, increases with reactive power. Dynamic distribution network reconfiguration (DNR), which hourly controls the network topology by controlling sectionalizing and tie switches, can also solve the overvoltage problem and reduce network loss by changing the power flow in the network. In th...
This paper proposes a completely non-centralized Volt/VAr control (VVC) algorithm for active distrib...
A one-step two-critic deep reinforcement learning (OSTC-DRL) approach for inverter-based volt-var co...
This article presents the control of a grid connected PV (GC-PV) array system, starting from a bench...
The conventional volt-VAR control (VVC) in distribution systems has limitations in solving the overv...
As low-carbon and clean energy become an inevitable requirement for sustainable development of energ...
As traditional fossil fuel reserves diminish and environmental concerns over air pollution and green...
Modern distribution networks face an increasing number of challenges in maintaining balanced grid vo...
Electrical power grid is one of the most complex engineering systems. The conventional power grid is...
The integration of Renewable Energy Resources (RERs) into Power Distribution Networks (PDN) has grea...
The increasing penetration of the power grid with renewable distributed generation causes significan...
The rapid development of electric vehicle (EV) technology and the consequent charging demand have br...
In this paper, a Reinforcement Learning (RL)-based approach to optimally dispatch PV inverters in un...
Modern distribution networks are undergoing several technical challenges, such as voltage fluctuatio...
High penetration and uneven distribution of single-phase rooftop PVs and load demands in power syste...
In terms of model-free voltage control methods, when the device or topology of the system changes, t...
This paper proposes a completely non-centralized Volt/VAr control (VVC) algorithm for active distrib...
A one-step two-critic deep reinforcement learning (OSTC-DRL) approach for inverter-based volt-var co...
This article presents the control of a grid connected PV (GC-PV) array system, starting from a bench...
The conventional volt-VAR control (VVC) in distribution systems has limitations in solving the overv...
As low-carbon and clean energy become an inevitable requirement for sustainable development of energ...
As traditional fossil fuel reserves diminish and environmental concerns over air pollution and green...
Modern distribution networks face an increasing number of challenges in maintaining balanced grid vo...
Electrical power grid is one of the most complex engineering systems. The conventional power grid is...
The integration of Renewable Energy Resources (RERs) into Power Distribution Networks (PDN) has grea...
The increasing penetration of the power grid with renewable distributed generation causes significan...
The rapid development of electric vehicle (EV) technology and the consequent charging demand have br...
In this paper, a Reinforcement Learning (RL)-based approach to optimally dispatch PV inverters in un...
Modern distribution networks are undergoing several technical challenges, such as voltage fluctuatio...
High penetration and uneven distribution of single-phase rooftop PVs and load demands in power syste...
In terms of model-free voltage control methods, when the device or topology of the system changes, t...
This paper proposes a completely non-centralized Volt/VAr control (VVC) algorithm for active distrib...
A one-step two-critic deep reinforcement learning (OSTC-DRL) approach for inverter-based volt-var co...
This article presents the control of a grid connected PV (GC-PV) array system, starting from a bench...