This study considers a novel application of electric vehicles (EVs) to quickly help reheated thermal turbine units to provide the stability fluctuated by load demands. A mathematical model of a power system with EVs is first derived. This model contains the dynamic interactions of EVs and multiple network-induced time delays. Then, a dynamic output feedback H∞ controller for load frequency control of power systems with multiple time delays in the control input is proposed. To address the multiple time delays issue, a refined Jensen-based inequality, which encompasses the Jensen inequality, is used to derive less conservative synthesis conditions in terms of tractable linear matrix inequalities. A procedure is given to parameterise an ...
With large-scale integration of electric vehicles, this paper investigates the load frequency contro...
The smart grid concept enables demand-side management, including electric vehicles (EVs). Thus way, ...
In power systems, although the inertia energy in power sources can partly cover power unbalances cau...
This paper presents a H∞ dynamic output feedback control scheme for load frequency control (LF...
Electric vehicles (EVs) can have noteworthy impact on power system dynamic performance. This paper d...
Nowadays, large scale intermittent renewable energy is being integrated to power systems as a soluti...
Today, time-varying delays may result from a communication network’s engagement in frequency control...
This paper presents a load frequency control scheme using electric vehicles (EVs) to help thermal tu...
This paper presents an improved stability criterion for load frequency control (LFC) of time-delay p...
Because of the lack of upstream grid support and low inertia, independent microgrids are very suscep...
In this paper, the stability of load frequency control (LFC) for delayed power systems with an elect...
Frequency control is the major concern for the integration of renewable energy into power systems. E...
After over a century of internal combustion engines ruling the transport sector, electric vehicles a...
The integration of renewable sources (RSs) and the widespread deployment of electric vehicles (EVs) ...
This paper presents a new method of designing decentralised discrete-type load-frequency regulator w...
With large-scale integration of electric vehicles, this paper investigates the load frequency contro...
The smart grid concept enables demand-side management, including electric vehicles (EVs). Thus way, ...
In power systems, although the inertia energy in power sources can partly cover power unbalances cau...
This paper presents a H∞ dynamic output feedback control scheme for load frequency control (LF...
Electric vehicles (EVs) can have noteworthy impact on power system dynamic performance. This paper d...
Nowadays, large scale intermittent renewable energy is being integrated to power systems as a soluti...
Today, time-varying delays may result from a communication network’s engagement in frequency control...
This paper presents a load frequency control scheme using electric vehicles (EVs) to help thermal tu...
This paper presents an improved stability criterion for load frequency control (LFC) of time-delay p...
Because of the lack of upstream grid support and low inertia, independent microgrids are very suscep...
In this paper, the stability of load frequency control (LFC) for delayed power systems with an elect...
Frequency control is the major concern for the integration of renewable energy into power systems. E...
After over a century of internal combustion engines ruling the transport sector, electric vehicles a...
The integration of renewable sources (RSs) and the widespread deployment of electric vehicles (EVs) ...
This paper presents a new method of designing decentralised discrete-type load-frequency regulator w...
With large-scale integration of electric vehicles, this paper investigates the load frequency contro...
The smart grid concept enables demand-side management, including electric vehicles (EVs). Thus way, ...
In power systems, although the inertia energy in power sources can partly cover power unbalances cau...