Litcius/Paper detail

Dynamic State Estimation of Nonlinear Differential Algebraic Equation Models of Power Networks

Muhammad Nadeem, Sebastian A. Nugroho, Ahmad F. Taha

2022IEEE Transactions on Power Systems29 citationsDOI

Abstract

This paper investigates the joint problems of dynamic state estimation of algebraic variables (voltage and phase angle) and generator states (rotor angle and frequency) of nonlinear differential algebraic equation (NDAE) power network models, under uncertainty. Traditionally, these two problems have been decoupled due to complexity of handling NDAE models. In particular, this paper offers the first attempt to solve the aforementioned problem in a coupled approach where the algebraic and generator states estimates are simultaneously computed. The proposed estimation algorithm herein is endowed with the following properties: (i) it is fairly simple to implement and based on well-understood Lyapunov theory; (ii) considers various sources of uncertainty from generator control inputs, loads, renewables, process and measurement noise; (iii) models phasor measurement unit installations at arbitrary buses; and (iv) is computationally less intensive than the decoupled approach in the literature.

Topics & Concepts

Control theory (sociology)PhasorElectric power systemNonlinear systemDifferential algebraic equationLyapunov functionGenerator (circuit theory)Algebraic equationPhasor measurement unitRotor (electric)State variableElectrical networkComputer scienceMathematicsDifferential equationPower (physics)EngineeringOrdinary differential equationControl (management)Mathematical analysisMechanical engineeringQuantum mechanicsThermodynamicsArtificial intelligenceElectrical engineeringPhysicsPower System Optimization and StabilityModel Reduction and Neural NetworksOptimal Power Flow Distribution
Dynamic State Estimation of Nonlinear Differential Algebraic Equation Models of Power Networks | Litcius