Synchronized Measurement Technology represented by Phasor Measurement Units (PMUs) is a sophisticated tool for power system monitoring and contributes to a more reliable and secure operation of the power systems. Phasor estimation is the key of PMUs, providing amplitude and phase of voltage/current of the power network buses. In this paper, the performance of a recursive Prony algorithm for the phasor estimation is examined under steady state and dynamic conditions. It is shown that the properties of the recursive algorithm have opposite impacts on the accuracy and the speed of the estimation, under these two conditions. To reach a good compromise between these two opposing properties, a modified recursive Prony, based on a time varying λ, ...
This paper presents a new approach for synchronized phasor measurement-based state estimation, which...
The electrical quantities of future power networks are expected to exhibit strong fluctuations cause...
Power Systems most often operate in the margins of stability limits. With power grids becoming even ...
Phasor estimation is crucial for monitoring and control of smart power systems. The classical signal...
Phasor measurement units (PMUs) are becoming one of the key issues of power network monitoring. They...
Phasor estimation has many application areas and has therefore attracted significant research focus....
This paper describes a scheme to improve the overall performance of Phasor Measurement Units (PMU), ...
Synchrophasor measurement is becoming one of the key issue of power network monitoring. The actual s...
Day to day to electrical power demand increases very rapidly with linear and non-linear load demands...
Wide area monitoring systems (WAMSs) enables the real-time monitoring of power system dynamics by br...
Phasor Measurement Units (PMUs) are normally used in Wide Area Measurement System (WAMS) for vast ap...
Phasor Measurement Units are the most advanced instruments for power network moni-toring, since they...
This chapter presents some of the most used synchrophasor measurement techniques that can be adopted...
Power systems that are highly loaded, especially by a stochastic supply of renewables and the presen...
Phasor measurement units (PMUs) play an important role in many applications of power systems. In ord...
This paper presents a new approach for synchronized phasor measurement-based state estimation, which...
The electrical quantities of future power networks are expected to exhibit strong fluctuations cause...
Power Systems most often operate in the margins of stability limits. With power grids becoming even ...
Phasor estimation is crucial for monitoring and control of smart power systems. The classical signal...
Phasor measurement units (PMUs) are becoming one of the key issues of power network monitoring. They...
Phasor estimation has many application areas and has therefore attracted significant research focus....
This paper describes a scheme to improve the overall performance of Phasor Measurement Units (PMU), ...
Synchrophasor measurement is becoming one of the key issue of power network monitoring. The actual s...
Day to day to electrical power demand increases very rapidly with linear and non-linear load demands...
Wide area monitoring systems (WAMSs) enables the real-time monitoring of power system dynamics by br...
Phasor Measurement Units (PMUs) are normally used in Wide Area Measurement System (WAMS) for vast ap...
Phasor Measurement Units are the most advanced instruments for power network moni-toring, since they...
This chapter presents some of the most used synchrophasor measurement techniques that can be adopted...
Power systems that are highly loaded, especially by a stochastic supply of renewables and the presen...
Phasor measurement units (PMUs) play an important role in many applications of power systems. In ord...
This paper presents a new approach for synchronized phasor measurement-based state estimation, which...
The electrical quantities of future power networks are expected to exhibit strong fluctuations cause...
Power Systems most often operate in the margins of stability limits. With power grids becoming even ...