In this paper, the stability of load frequency control (LFC) for delayed power systems with an electric vehicle (EV) aggregator is studied based on Lyapunov theory and linear matrix inequalities (LMIs). Through mechanism analysis, the LFC of power systems with an EV aggregator based on a proportional–integral–differential (PID) controller is modeled. By constructing a delay interval information correlation functional and estimating its derivative using Wirtinger inequality and extended reciprocally convex matrix inequality, a new stability analysis criterion is proposed. Finally, in order to verify its advantage, the proposed method is used to discuss the influence of EV aggregator gains and PID controller gains on the delay margins for LFC...
With the continuous increase of renewable energy, the power system will face the problem of insuffic...
Time-domain indirect methods based on Lyapunov stability theory and linear matrix inequality techniq...
This paper proposes an effective method such that the robust load frequency control (LFC) scheme can...
Today, time-varying delays may result from a communication network’s engagement in frequency control...
This paper presents an improved stability criterion for load frequency control (LFC) of time-delay p...
Nowadays, large scale intermittent renewable energy is being integrated to power systems as a soluti...
This paper aims at developing a novel stability criterion to access the influence of the time-varyin...
This paper presents a H∞ dynamic output feedback control scheme for load frequency control (LF...
With the development and expansion of the power grid, the load frequency control (LFC) scheme receiv...
This study considers a novel application of electric vehicles (EVs) to quickly help reheated thermal...
In many real-world engineering systems, the rate of variation in the system state depends on the pas...
The stability problem for load frequency control (LFC) of power systems with two time-varying commun...
This study investigates the stability problem of load frequency control (LFC) for power systems with...
Electric vehicles (EVs) can have noteworthy impact on power system dynamic performance. This paper d...
Time delays have become unavoidable in power systems since communication links are extensively used ...
With the continuous increase of renewable energy, the power system will face the problem of insuffic...
Time-domain indirect methods based on Lyapunov stability theory and linear matrix inequality techniq...
This paper proposes an effective method such that the robust load frequency control (LFC) scheme can...
Today, time-varying delays may result from a communication network’s engagement in frequency control...
This paper presents an improved stability criterion for load frequency control (LFC) of time-delay p...
Nowadays, large scale intermittent renewable energy is being integrated to power systems as a soluti...
This paper aims at developing a novel stability criterion to access the influence of the time-varyin...
This paper presents a H∞ dynamic output feedback control scheme for load frequency control (LF...
With the development and expansion of the power grid, the load frequency control (LFC) scheme receiv...
This study considers a novel application of electric vehicles (EVs) to quickly help reheated thermal...
In many real-world engineering systems, the rate of variation in the system state depends on the pas...
The stability problem for load frequency control (LFC) of power systems with two time-varying commun...
This study investigates the stability problem of load frequency control (LFC) for power systems with...
Electric vehicles (EVs) can have noteworthy impact on power system dynamic performance. This paper d...
Time delays have become unavoidable in power systems since communication links are extensively used ...
With the continuous increase of renewable energy, the power system will face the problem of insuffic...
Time-domain indirect methods based on Lyapunov stability theory and linear matrix inequality techniq...
This paper proposes an effective method such that the robust load frequency control (LFC) scheme can...