Your search keyword '"Bobtsov, Alexey A."' showing total 34 results

1. Parameter identification algorithm for a LTV system with partially unknown state matrix

Author

Kozachek, Olga, Nikolaev, Nikolay, Slita, Olga, Bobtsov, Alexey, Kozachek, Olga, Nikolaev, Nikolay, Slita, Olga, and Bobtsov, Alexey

Abstract

In this paper an adaptive state observer and parameter identification algorithm for a linear time-varying system are developed under condition that the state matrix of the system contains unknown time-varying parameters of a known form. The state vector is observed using only output and input measurements without identification of the unknown parameters. When the state vector estimate is obtained, the identification algorithm is applied to find unknown parameters of the system., Comment: 6 pages, 6 figures, submitted to IEEE Control Systems Letters

Published

2024

2. An observer-based composite identifier for online estimation of the Thévenin equivalent parameters of a power system

Author

Universitat Politècnica de Catalunya. Departament d'Enginyeria Elèctrica, Universitat Politècnica de Catalunya. CITCEA-UPC - Centre d'Innovació Tecnològica en Convertidors Estàtics i Accionaments, Zonetti, Daniele, Ortega, Romeo, Cisneros, Rafael, Bobtsov, Alexey, Mancilla David, Fernando, Gomis Bellmunt, Oriol, Universitat Politècnica de Catalunya. Departament d'Enginyeria Elèctrica, Universitat Politècnica de Catalunya. CITCEA-UPC - Centre d'Innovació Tecnològica en Convertidors Estàtics i Accionaments, Zonetti, Daniele, Ortega, Romeo, Cisneros, Rafael, Bobtsov, Alexey, Mancilla David, Fernando, and Gomis Bellmunt, Oriol

Abstract

We consider a Thévenin equivalent circuit capturing the dynamics of a power grid as seen from the point of common coupling with a power electronic converter and propose a solution to the problem of online identification of the corresponding circuit parameters. For this purpose, we first derive a linear regression model in the conventional abc coordinates that, unfortunately, suffers from severe lack of identifiability properties. In spite of this fact, we design a bounded observer-based composite identifier that, requiring only local measurements and knowledge of the grid frequency, ensures global boundedness of the parameters estimation error and convergence to a practically small residual set. An extension that guarantees exponential convergence of these errors to zero, in the case that the grid is dominantly inductive, is further provided. The performance of the proposed identifier, which subsumes a conventional gradient descent algorithm, is illustrated via detailed computer simulations., The work of Oriol Gomis-Bellmunt was supported by the Institució Catalana de Recerca i Estudis Avançats (ICREA), Spain Academia Program. Ministerio de Ciencia e Innovación (Proyecto Equired) (PID2021-124292OB-I00)., Postprint (published version)

Published

2024

3. Parameter estimation of some special classes of dynamical nonlinear systems with non-separable nonlinear parameterizations

Author

Universitat Politècnica de Catalunya. Departament d'Enginyeria de Sistemes, Automàtica i Informàtica Industrial, Universitat Politècnica de Catalunya. SAC - Sistemes Avançats de Control, Ortega Martínez, Romeo, Bobtsov, Alexey, Costa Castelló, Ramon, Nikolaev, Nikolay, Pyrkin, Anton A., Universitat Politècnica de Catalunya. Departament d'Enginyeria de Sistemes, Automàtica i Informàtica Industrial, Universitat Politècnica de Catalunya. SAC - Sistemes Avançats de Control, Ortega Martínez, Romeo, Bobtsov, Alexey, Costa Castelló, Ramon, Nikolaev, Nikolay, and Pyrkin, Anton A.

Abstract

In this paper we address the challenging problem of designing globally convergent estimators for the parameters of nonlinear systems containing a non-separable exponential nonlinearity. This class of terms appears in many practical applications, and none of the existing parameter estimators is able to deal with them in an efficient way. The proposed estimation procedure is illustrated with two modern applications: fuel cells and human musculoskeletal dynamics. The procedure does not assume that the parameters live in known compact sets, that the nonlinearities satisfy some Lipschitzian properties, nor rely on injection of high-gain or the use of complex, computationally demanding methodologies. Instead, we propose to design a classical on-line estimator whose dynamics is described by an ordinary differential equation given in a compact precise form. A further contribution of the paper is the proof that parameter convergence is guaranteed with the extremely weak interval excitation requirement., This paper is supported by the Ministry of Science and Higher Education of Russian Federation, passport of goszadanie no. 2019-0898. This work is part of the project MAFALDA (PID2021-126001OB-C31) and MASHED (TED2021-129927B-I00) funded by MCIN/ AEI/10.13039/501100011033 and by the European Union Next GenerationEU/PRTR., Peer Reviewed, Postprint (author's final draft)

Published

2023

4. An almost globally stable adaptive phase-locked loop for synchronization of a voltage source converter to a weak grid

Author

Universitat Politècnica de Catalunya. Departament d'Enginyeria Elèctrica, Universitat Politècnica de Catalunya. CITCEA-UPC - Centre d'Innovació Tecnològica en Convertidors Estàtics i Accionaments, Zonetti, Daniele, Bobtsov, Alexey, Ortega Martínez, Romeo, Nikolaev, Nikolay, Gomis Bellmunt, Oriol, Universitat Politècnica de Catalunya. Departament d'Enginyeria Elèctrica, Universitat Politècnica de Catalunya. CITCEA-UPC - Centre d'Innovació Tecnològica en Convertidors Estàtics i Accionaments, Zonetti, Daniele, Bobtsov, Alexey, Ortega Martínez, Romeo, Nikolaev, Nikolay, and Gomis Bellmunt, Oriol

Abstract

In this article we are interested in the problem of adaptive synchronization of a voltage source converter with a possibly weak grid with unknown angle and frequency, but knowledge of its parameters. To guarantee a suitable synchronization with the angle of the three-phase grid voltage we design an adaptive observer for such a signal requiring measurements only at the point of common coupling. Then we propose two alternative certainty-equivalent, adaptive phase-locked loops that ensure the angle estimation error goes to zero for almost all initial conditions. Although well-known, for the sake of completeness, we also present a PI controller with feedforward action that ensures the converter currents converge to an arbitrary desired value. Relevance of the theoretical results and their robustness to variation of the grid parameters are thoroughly discussed and validated in the challenging scenario of a converter connected to a grid with low short-circuit-ratio., Postprint (published version)

Published

2023

5. A Globally Convergent Estimator of the Parameters of the Classical Model of a Continuous Stirred Tank Reactor

Author

Pyrkin, Anton, Bobtsov, Alexey, Ortega, Romeo, Romero, Jose Guadalupe, Dochain, Denis, Pyrkin, Anton, Bobtsov, Alexey, Ortega, Romeo, Romero, Jose Guadalupe, and Dochain, Denis

Abstract

In this paper we provide the first solution to the challenging problem of designing a globally exponentially convergent estimator for the parameters of the standard model of a continuous stirred tank reactor. Because of the presence of non-separable exponential nonlinearities in the system dynamics that appear in Arrhenius law, none of the existing parameter estimators is able to deal with them in an efficient way and, in spite of many attempts, the problem was open for many years. To establish our result we propose a novel procedure to obtain a suitable nonlinearly parameterized regression equation and introduce a radically new estimation algorithm - derived applying the Immersion and Invariance methodology - that is applicable to these regression equations. A further contribution of the paper is that parameter convergence is guaranteed with weak excitation requirements.

Published

2023

6. Synthesis of an adaptive observer of state variables for a linear stationary object in the presence of measurement noise

Author

Bobtsov, Alexey, Virobyev, Vladimir, Nikolaev, Nikolay, Pyrkin, Anton, Ortega, Romeo, Bobtsov, Alexey, Virobyev, Vladimir, Nikolaev, Nikolay, Pyrkin, Anton, and Ortega, Romeo

Abstract

The article is devoted to the problem of synthesis of observers of state variables for linear stationary objects operating under conditions of noise or disturbances in the measurement channel. The paper considers a fully observable linear stationary system with known parameters. It is assumed that the state variables are not measured, and the measured output variable contains a small amplitude (in general, modulo less than one) additive noise or disturbance. It is also assumed that there is no a priori information about the disturbance or noise in the measurement channel (for example, frequency spectrum, covariance, etc.). It is well known that a large number of methods of observer synthesis have been obtained for this type of objects, including the Kalman filter, which has proven itself in practice. Under the condition of complete observability and the presence of some a priori information about the process (which is typical for the case when a disturbance in the measurement channel can be represented as white noise), approaches based on Kalman filtering demonstrate the highest quality of convergence of estimates of state variables to true values. Without taking into account the numerous results obtained using the application of the Kalman filter, an alternative idea of constructing an observer of state variables is considered in this paper. The alternative of the new approach is primarily due to the fact that there is no need to use the usual approaches based on the Luenberger observer. The paper proposes an approach based on the evaluation of unknown parameters (in this case, an unknown vector of initial conditions of the variables of the object state) of a linear regression model., Comment: in Russian language

Published

2023

7. Application of a nonlinear operator to identify an unknown parameter for a scalar regression equation with disturbance in the measurement channel

Author

Vorobyev, Vladimir, Bobtsov, Alexey, Nikolaev, Nikolay, Pyrkin, Anton, Vorobyev, Vladimir, Bobtsov, Alexey, Nikolaev, Nikolay, and Pyrkin, Anton

Abstract

The article investigates an algorithm for identifying an unknown constant parameter for a scalar regression model using a nonlinear operator that allows us to obtain a new regression equation (with an expanded number of unknown parameters) for which the influence of interference in measurement or disturbance will be minimal., Comment: in Russian language

Published

2023

8. Adaptive observer of state variables of a nonlinear time varying system with unknown constant parameters

Author

Kozachek, Olga, Bobtsov, Alexey, Nikolaev, Nikolay, Kozachek, Olga, Bobtsov, Alexey, and Nikolaev, Nikolay

Abstract

The paper proposes an adaptive observer of the state vector of a nonlinear time varying system based on measurements of the output variable. The problem is solved under the assumption that the control matrix (vector) and the nonlinear component of the equation of state of the system contain unknown constant parameters. When developing an adaptive observer, the GPEBO (generalized parameter estimation based observer) method was used, also known as a generalized observer based on parameter estimation, which was proposed in [1]. During the synthesis of the observer, a preliminary parametrization of the original nonlinear system is carried out. Then the resulting system is reduced to a linear regression model. At the next stage, unknown constant regression parameters are estimated using the least squares method with the forgetting factor [2, 3]. The article suggests the development of the result proposed by the authors in [4]. In [4], a linear non-stationary system containing unknown parameters in a control matrix (vector) was considered. This result is an extension of the result obtained in [4] for the case when the equation of state of the system contains a partially unknown nonlinearity., Comment: in Russian language

Published

2023

9. Adaptive observer for a nonlinear system with partially unknown state matrix and delayed measurements

Author

Kozachek, Olga, Bobtsov, Alexey, Nikolaev, Nikolay, Kozachek, Olga, Bobtsov, Alexey, and Nikolaev, Nikolay

Abstract

Problem of an adaptive state observer design for nonlinear system with unknown time-varying parameters and under condition of delayed measurements is considered. State observation problem was raised by many researchers (see for example Sanx et al. (2019)). In this paper the results proposed in Bobtsov et al. (2021b), Bobtsov et al. (2021a), Bobtsov et al. (2022a), Bobtsov et al. (2022b) are developed. The problem is solved under assumption that the state matrix can be represented as sum of known and unknown parts. The output vector is measured with a known constant delay. An adaptive observer which reconstructs unknown state and unknown time-varying parameter is proposed., Comment: Submitted to IFAC World Congress 2023

Published

2022

10. On-line Identification of Photovoltaic Arrays' Dynamic Model Parameters

Author

Bobtsov, Alexey, Mancilla-David, Fernando, Aranovskiy, Stanislav, Ortega, Romeo, Bobtsov, Alexey, Mancilla-David, Fernando, Aranovskiy, Stanislav, and Ortega, Romeo

Abstract

This paper deals with the problem of on-line identification of the parameters of a realistic dynamical model of a photovoltaic array connected to a power system through a power converter. It has been shown in the literature that, when interacting with switching devices, this model is able to better account for the PV array operation, as compared to the classical five parameter static model of the array. While there are many results of identification of the parameters of the latter model, to the best of our knowledge, no one has provided a solution for the aforementioned more complex dynamic model since it concerns the parameter estimation of a nonlinear, underexcited system with unmeasurable state variables. Achieving such objective is the main contribution of the paper. We propose a new parameterisation of the dynamic model, which, combined with the powerful identification technique of dynamic regressor extension and mixing, ensures a fast and accurate online estimation of the unknown parameters. Realistic numerical examples via computer simulations are presented to assess the performance of the proposed approach -- even being able to track the parameter variations when the system changes operating point.

Published

2022

11. An Observer-Based Composite Identifier for Online Estimation of the Thevenin Equivalent Parameters of a Power System

Author

Zonetti, Daniele, Ortega, Romeo, Cisneros, Rafael, Bobtsov, Alexey, Mancilla-David, Fernando, Gomis-Bellmunt, Oriol, Zonetti, Daniele, Ortega, Romeo, Cisneros, Rafael, Bobtsov, Alexey, Mancilla-David, Fernando, and Gomis-Bellmunt, Oriol

Abstract

We consider a Th\'evenin equivalent circuit capturing the dynamics of a power grid as seen from the point of common coupling with a power electronic converter, and provide a solution to the problem of online identification of the corresponding circuit parameters. For this purpose, we first derive a linear regression model in the conventional abc coordinates and next design a bounded observer-based composite identifier that requires local measurements and knowledge of the grid frequency only. An extension that guarantees exponential convergence of the estimates, under the additional assumption of knowledge of the grid X/R ratio, is further provided. The performance of the proposed identifier, which subsumes a conventional gradient descent algorithm, is illustrated via detailed computer simulations.

Published

2022

12. An Almost Globally Stable Adaptive Phase-Locked Loop for Synchronization of a Grid-Connected Voltage Source Converter

Author

Zonetti, Daniele, Bobtsov, Alexey, Ortega, Romeo, Nikolaev, Nikolay, Gomis-Bellmunt, Oriol, Zonetti, Daniele, Bobtsov, Alexey, Ortega, Romeo, Nikolaev, Nikolay, and Gomis-Bellmunt, Oriol

Abstract

In this paper we are interested in the problem of adaptive synchronization of a voltage source converter with a possibly weak grid with unknown angle and frequency, but knowledge of its parameters. To guarantee a suitable synchronization with the angle of the three-phase grid voltage we design an adaptive observer for such a signal requiring measurements only at the point of common coupling. Then we propose two alternative certainty-equivalent, adaptive phase-locked loops that ensure the angle estimation error goes to zero for almost all initial conditions. Although well-known, for the sake of completeness, we also present a PI controller with feedforward action that ensures the converter currents converge to an arbitrary desired value. Relevance of the theoretical results and their robustness to variation of the grid parameters are thoroughly discussed and validated in the challenging scenario of a converter connected to a grid with low short-circuit-ratio., Comment: 16 pages, 6 figures

Published

2022

13. Generalized parameter estimation-based observers: Application to power systems and chemical–biological reactors

Author

UCL - SST/ICTM - Institute of Information and Communication Technologies, Electronics and Applied Mathematics, Ortega, Romeo, Bobtsov, Alexey, Nikolaev, Nikolay, Schiffer, Johannes, Dochain, Denis, UCL - SST/ICTM - Institute of Information and Communication Technologies, Electronics and Applied Mathematics, Ortega, Romeo, Bobtsov, Alexey, Nikolaev, Nikolay, Schiffer, Johannes, and Dochain, Denis

Abstract

In this paper we propose a new state observer design technique for nonlinear systems. It consists of an extension of the recently introduced parameter estimation-based observer, which is applicable for systems verifying a particular algebraic constraint. In contrast to the previous observer, the new one avoids the need of implementing an open loop integration that may stymie its practical application. We give two versions of this observer, one that ensures asymptotic convergence and the second one that achieves convergence in finite time. In both cases, the required excitation conditions are strictly weaker than the classical persistent of excitation assumption. It is shown that the proposed technique is applicable to the practically important examples of multimachine power systems and chemical–biological reactors.

Published

2021

14. On-line Estimation of the Parameters of the Windmill Power Coefficient

Author

Bobtsov, Alexey, Ortega, Romeo, Aranovskiy, Stanislav, Cisneros, Rafael, Bobtsov, Alexey, Ortega, Romeo, Aranovskiy, Stanislav, and Cisneros, Rafael

Abstract

Wind turbines are often controlled to harvest the maximum power from the wind, which corresponds to the operation at the top of the bell-shaped power coefficient graph. Such a mode of operation may be achieved implementing an extremum seeking data-based strategy, which is an invasive technique that requires the injection of harmonic disturbances. Another approach is based on the knowledge of the analytic expression of the power coefficient function, an information usually unreliably provided by the turbine manufacturer. In this paper we propose a globally, exponentially convergent on-line estimator of the parameters entering into the windmill power coefficient function. This corresponds to the solution of an identification problem for a nonlinear, nonlinearly parameterized, underexcited system. To the best of our knowledge we have provided the first solution to this challenging, practically important, problem., Comment: 9 figures, 23 pages

Published

2021

15. An Adaptive Observer for Uncertain Linear Time-Varying Systems with Unknown Additive Perturbations

Author

Pyrkin, Anton, Bobtsov, Alexey, Ortega, Romeo, Isidori, Alberto, Pyrkin, Anton, Bobtsov, Alexey, Ortega, Romeo, and Isidori, Alberto

Abstract

In this paper we are interested in the problem of adaptive state observation of linear time-varying (LTV) systems where the system and the input matrices depend on unknown time-varying parameters. It is assumed that these parameters satisfy some known LTV dynamics, but with unknown initial conditions. Moreover, the state equation is perturbed by an additive signal generated from an exosystem with uncertain constant parameters. Our main contribution is to propose a globally convergent state observer that requires only a weak excitation assumption on the system., Comment: 21 pages, 4 figures, detailed paper

Published

2021

16. An adaptive observer-based controller design for active damping of a DC network with a constant power load

Author

Universitat Politècnica de Catalunya. Departament d'Enginyeria de Sistemes, Automàtica i Informàtica Industrial, Universitat Politècnica de Catalunya. ACES - Control Avançat de Sistemes d'Energia, Machado, Juan E., Ortega, Romeo, Astolfi, Alessandro, Arocas Pérez, José, Pyrkin, Anton A., Bobtsov, Alexey, Griñó Cubero, Robert, Universitat Politècnica de Catalunya. Departament d'Enginyeria de Sistemes, Automàtica i Informàtica Industrial, Universitat Politècnica de Catalunya. ACES - Control Avançat de Sistemes d'Energia, Machado, Juan E., Ortega, Romeo, Astolfi, Alessandro, Arocas Pérez, José, Pyrkin, Anton A., Bobtsov, Alexey, and Griñó Cubero, Robert

Abstract

© 2021 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for all other uses, in any current or future media, including reprinting /republishing this material for advertising or promotional purposes, creating new collective works, for resale or redistribution to servers or lists, or reuse of any copyrighted component of this work in other works, This article explores a nonlinear, adaptive controller aimed at increasing the stability margin of a direct-current (dc), small-scale, electrical network containing an unknown constant power load (CPL). Due to its negative incremental impedance, this load reduces the effective damping of the network, which may lead to voltage oscillations and even to voltage collapse. To overcome this drawback, we consider the incorporation of a controlled dc-dc power converter in parallel with the CPL. The design of the control law for the converter is particularly challenging due to the existence of unmeasured states and unknown parameters. We propose a standard input-output linearization stage, to which a suitably tailored adaptive observer is added. The good performance of the controller is validated through experiments on a small-scale network., Peer Reviewed, Postprint (author's final draft)

Published

2021

17. Identifiability Implies Robust, Globally Exponentially Convergent On-line Parameter Estimation: Application to Model Reference Adaptive Control

Author

Wang, Lei, Ortega, Romeo, Bobtsov, Alexey, Romero, Jose Guadalupe, Yi, Bowen, Wang, Lei, Ortega, Romeo, Bobtsov, Alexey, Romero, Jose Guadalupe, and Yi, Bowen

Abstract

In this paper we propose a new parameter estimator that ensures global exponential convergence of linear regression models requiring only the necessary assumption of identifiability of the regression equation,which we show is equivalent to interval excitation of the regressor vector. Continuous and discrete-time versions of the estimators are given. An extension to--separable and monotonic--non-linear parameterizations is also given. The estimators are shown to be robust to additive measurement noise and--not necessarily slow--parameter variations. Moreover, a version of the continuous-time estimator that rejects sinusoidal disturbances with unknown internal model is given. The estimator is shown to be applicable to the classical model reference adaptive control problem relaxing the conspicuous assumption of known sign of the high-frequency gain. Simulation results that illustrate the performance of the estimator are given.

Published

2021

18. Persistent Excitation is Unnecessary for On-line Exponential Parameter Estimation: A New Algorithm that Overcomes this Obstacle

Author

Korotina, Marina, Romero, Jose Guadalupe, Aranovskiy, Stanislav, Bobtsov, Alexey, Ortega, Romeo, Korotina, Marina, Romero, Jose Guadalupe, Aranovskiy, Stanislav, Bobtsov, Alexey, and Ortega, Romeo

Abstract

In this paper, we prove that it is possible to estimate online the parameters of a classical vector linear regression equation $ Y=\Omega \theta$, where $ Y \in \mathbb{R}^n,\;\Omega \in \mathbb{R}^{n \times q}$ are bounded, measurable signals and $\theta \in \mathbb{R}^q$ is a constant vector of unknown parameters, even when the regressor $\Omega$ is not persistently exciting. Moreover, the convergence of the new parameter estimator is global and exponential and is given for both continuous-time and discrete-time implementations. As an illustration example, we consider the problem of parameter estimation of a linear time-invariant system, when the input signal is not sufficiently exciting, which is known to be a necessary and sufficient condition for the solution of the problem with the standard gradient or least-squares adaptation algorithms., Comment: submitted to System and Control Letters

Published

2021

19. Generation of new exciting regressors for consistent on-line estimation of unknown constant parameters

Author

Bobtsov, Alexey, Yi, Bowen, Ortega, Romeo, Astolfi, Alessandro, Bobtsov, Alexey, Yi, Bowen, Ortega, Romeo, and Astolfi, Alessandro

Abstract

The problem of parameter estimation from a standard vector linear regression equation in the absence of sufficient excitation in the regressor is addressed. The first step to solve the problem consists in transforming this equation into a set of scalar ones using the well-known dynamic regressor extension and mixing technique. Then a novel procedure to generate new scalar exciting regressors is proposed.} The superior performance of a classical gradient estimator using this new regressor, instead of the original one, is illustrated with comprehensive simulations.

Published

2021

20. Output adaptive control for linear systems under parametric uncertainties with finite-time matching input harmonic disturbance rejection

Author

Dobriborsci, Dmitrii, Kolyubin, Sergey, Bobtsov, Alexey, Dobriborsci, Dmitrii, Kolyubin, Sergey, and Bobtsov, Alexey

Abstract

We consider the task of motion control for non-prehensile manipulation using parallel kinematics mechatronic setup, in particular, stabilization of a ball on a plate under unmeasured external harmonic disturbances. System parameters are assumed to be unknown, and only a ball position is measurable with a resistive touch sensor. To solve the task we propose a novel passivity-based output control algorithm that can be implemented for unstable linearized systems of an arbitrary relative degree. In contrast to previous works, we describe a new way to parametrize harmonic signal generators and an estimation algorithm with finite-time convergence. This scheme enables fast disturbance cancellation under control signal magnitude constraints., Comment: 11 pages, 11 figures, extended version of the paper accepted for IFAC WC 2020

Published

2020

21. A Globally Stable Practically Implementable PI Passivity-based Controller for Switched Power Converters

Author

Bobtsov, Alexey, Ortega, Romeo, Nikolaev, Nikolay, He, Wei, Bobtsov, Alexey, Ortega, Romeo, Nikolaev, Nikolay, and He, Wei

Abstract

In this paper we propose a PI passivity-based controller, applicable to a large class of switched power converters, that ensures global state regulation to a desired equilibrium point. A solution to this problem was reported in \cite{HERetal} but it requires full state-feedback, which makes it practically unfeasible. To overcome this limitation we construct a state observer that is implementable with measurements that are available in practical applications. The observer reconstructs the state in finite-time, ensuring global convergence of the PI. The excitation requirement for the observer is very weak and is satisfied in normal operation of the converters. Simulation results illustrate the excellent performance of the proposed PI.

Published

2020

22. A Globally Convergent State Observer for Multimachine Power Systems with Lossy Lines

Author

Bobtsov, Alexey, Ortega, Romeo, Nikolaev, Nikolay, Schiffer, Johannes, Bobtsov, Alexey, Ortega, Romeo, Nikolaev, Nikolay, and Schiffer, Johannes

Abstract

We present the first solution to the problem of estimation of the state of multimachine power systems with lossy transmission lines. We consider the classical three-dimensional \fluxdecay" model of the power system and assume that the active and reactive power as well as the rotor angle and excitation voltage at each generator is available for measurement|a scenario that is feasible with current technology. The design of the observer relies on two recent developments proposed by the authors: a parameter estimation based approach to the problem of state estimation and the use of the dynamic regressor extension and mixing technique to estimate these parameters. Thanks to the combination of these techniques it is possible to overcome the problem of lack of persistent excitation that stymies the application of standard observer designs. Simulation results illustrate the performance of the proposed observer., Comment: 8 pages, 4 fugures

Published

2020

23. State Observation of Power Systems Equipped with Phasor Measurement Units: The Case of Fourth Order Flux-Decay Model

Author

Bobtsov, Alexey, Ortega, Romeo, Nikolaev, Nikolay, Schiffer, Johannes, Lorenz-Meyer, M. Nicolai L., Bobtsov, Alexey, Ortega, Romeo, Nikolaev, Nikolay, Schiffer, Johannes, and Lorenz-Meyer, M. Nicolai L.

Abstract

The problem of effective use of Phasor Measurement Units (PMUs) to enhance power systems awareness and security is a topic of key interest. The central question to solve is how to use this new measurements to reconstruct the state of the system. In this paper we provide the first solution to the problem of (globally convergent) state estimation of multimachine power systems equipped with PMUs and described by the fourth order flux-decay model. This work is a significant extension of our previous result, where this problem was solved for the simpler third order model, for which it is possible to recover algebraically part of the unknown state. Unfortunately, this property is lost in the more accurate fourth order model, significantly complicating the state observation task. The design of the observer relies on two recent developments proposed by the authors, a parameter estimation based approach to the problem of state estimation and the use of the Dynamic Regressor Extension and Mixing (DREM) technique to estimate these parameters. The use of DREM allows us to overcome the problem of lack of persistent excitation that stymies the application of standard parameter estimation designs. Simulation results illustrate the latter fact and show the improved performance of the proposed observer with respect to a locally stable gradient-descent based observer., Comment: 10 pages, 10 Figures

Published

2020

24. PMU-Based Decentralized Mixed Algebraic and Dynamic State Observation in Multi-Machine Power Systems

Author

Lorenz-Meyer, M. Nicolai L., Bobtsov, Alexey A., Ortega, Romeo, Nikolaev, Nikolay, Schiffer, Johannes, Lorenz-Meyer, M. Nicolai L., Bobtsov, Alexey A., Ortega, Romeo, Nikolaev, Nikolay, and Schiffer, Johannes

Abstract

We propose a novel decentralized mixed algebraic and dynamic state observation method for multi-machine power systems with unknown inputs and equipped with Phasor Measurement Units (PMUs). More specifically, we prove that for the third-order flux-decay model of a synchronous generator, the local PMU measurements give enough information to reconstruct algebraically the load angle and the quadrature-axis internal voltage. Due to the algebraic structure a high numerical efficiency is achieved, which makes the method applicable to large scale power systems. Also, we prove that the relative shaft speed can be globally estimated combining a classical Immersion and Invariance (I&I) observer with - the recently introduced - dynamic regressor and mixing (DREM) parameter estimator. This adaptive observer ensures global convergence under weak excitation assumptions that are verified in applications. The proposed method does not require the measurement of exogenous inputs signals such as the field voltage and the mechanical torque nor the knowledge of mechanical subsystem parameters., Comment: 10 pages, 11 figures

Published

2020

25. Frequency Estimation of Multi-Sinusoidal Signals in Finite-Time

Author

Vediakova, Anastasiia, Vedyakov, Alexey, Pyrkin, Anton, Bobtsov, Alexey, Gromov, Vladislav, Vediakova, Anastasiia, Vedyakov, Alexey, Pyrkin, Anton, Bobtsov, Alexey, and Gromov, Vladislav

Abstract

This paper considers the problem of frequency estimation for a multi-sinusoidal signal consisting of n sinuses in finite-time. The parameterization approach based on applying delay operators to a measurable signal is used. The result is the nth order linear regression model with n parameters, which depends on the signals frequencies. We propose to use Dynamic Regressor Extension and Mixing method to replace nth order regression model with n first-order regression models. Then the standard gradient descent method is used to estimate separately for each the regression model parameter. On the next step using algebraic equations finite-time frequency estimate is found. The described method does not require measuring or calculating derivatives of the input signal, and uses only the signal measurement. The efficiency of the proposed approach is demonstrated through the set of numerical simulations., Comment: 8 pages, 4 figures

Published

2020

26. A Flux and Speed Observer for Induction Motors with Unknown Rotor Resistance and Load Torque and no Persistent Excitation Requirement

Author

Pyrkin, Anton, Bobtsov, Alexey, Vedyakov, Alexey, Ortega, Romeo, Vediakova, Anastasiia, Sinetova, Madina, Pyrkin, Anton, Bobtsov, Alexey, Vedyakov, Alexey, Ortega, Romeo, Vediakova, Anastasiia, and Sinetova, Madina

Abstract

In this paper we address the problems of flux and speed observer design for voltage-fed induction motors with unknown rotor resistance and load torque. The only measured signals are stator current and control voltage. Invoking the recently reported Dynamic Regressor Extension and Mixing-Based Adaptive Observer (DREMBAO) we provide the first global solution to this problem. The proposed DREMBAO achieve asymptotic convergence under an excitation condition that is strictly weaker than persistent excitation. If the latter condition is assumed the convergence is exponential.

Published

2020

27. State Observation of LTV Systems with Delayed Measurements: A Parameter Estimation-based Approach

Author

Bobtsov, Alexey, Nikolaev, Nikolay, Ortega, Romeo, Efimov, Denis, Bobtsov, Alexey, Nikolaev, Nikolay, Ortega, Romeo, and Efimov, Denis

Abstract

In this paper we address the problem of state observation of linear time-varying systems with delayed measurements, which has attracted the attention of many researchers|see [7] and references therein. We show that, adopting the parameter estimationbased approach proposed in [3,4], we can provide a very simple solution to the problem with reduced prior knowledge., Comment: 3 pages, 6 figures

Published

2020

28. State Observers for Reaction Systems with Improved Convergence Rate

Author

UCL - SST/ICTM/INMA - Pôle en ingénierie mathématique, Ortega, Romeo, Bobtsov, Alexey, Dochain, Denis, Nikolaev, Nikolay, UCL - SST/ICTM/INMA - Pôle en ingénierie mathématique, Ortega, Romeo, Bobtsov, Alexey, Dochain, Denis, and Nikolaev, Nikolay

Published

2019

29. Active damping of a DC network with a constant power load: an adaptive observer-based design

Author

Universitat Politècnica de Catalunya. Doctorat en Automàtica, Robòtica i Visió, Universitat Politècnica de Catalunya. Departament d'Enginyeria de Sistemes, Automàtica i Informàtica Industrial, Universitat Politècnica de Catalunya. ACES - Control Avançat de Sistemes d'Energia, Machado, Juan, Ortega, Romeo, Astolfi, Alessandro, Arocas Pérez, José, Pyrkin, Anton, Bobtsov, Alexey, Griñó Cubero, Robert, Universitat Politècnica de Catalunya. Doctorat en Automàtica, Robòtica i Visió, Universitat Politècnica de Catalunya. Departament d'Enginyeria de Sistemes, Automàtica i Informàtica Industrial, Universitat Politècnica de Catalunya. ACES - Control Avançat de Sistemes d'Energia, Machado, Juan, Ortega, Romeo, Astolfi, Alessandro, Arocas Pérez, José, Pyrkin, Anton, Bobtsov, Alexey, and Griñó Cubero, Robert

Abstract

© 2019 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for all other uses, in any current or future media, including reprinting /republishing this material for advertising or promotional purposes, creating new collective works, for resale or redistribution to servers or lists, or reuse of any copyrighted component of this work in other works, This paper proposes a nonlinear, output feedback, adaptive controller to increase the stability margin of a direct-current (DC), small-scale, electrical network containing an unknown constant power load. Due to their negative incremental impedance, constant power loads are known to reduce the effective damping of a network, leading to voltage oscillations and even to network collapse. To overcome this drawback, we consider the incorporation of a controlled DC-DC power converter in parallel with the constant power load. The design of the control law for the converter is particularly challenging due to the existence of unmeasured states and unknown parameters. We propose a standard input-output linearization stage, to which a suitably tailored adaptive observer is added. The good performance of the controller is evaluated with numerical simulations, Peer Reviewed, Postprint (author's final draft)

Published

2019

30. New Results on Parameter Estimation via Dynamic Regressor Extension and Mixing: Continuous and Discrete-time Cases

Author

Ortega, Romeo, Aranovskiy, Stanislav, Pyrkin, Anton A., Astolfi, Alessandro, Bobtsov, Alexey A., Ortega, Romeo, Aranovskiy, Stanislav, Pyrkin, Anton A., Astolfi, Alessandro, and Bobtsov, Alexey A.

Abstract

We present some new results on the dynamic regressor extension and mixing parameter estimators for linear regression models recently proposed in the literature. This technique has proven instrumental in the solution of several open problems in system identification and adaptive control. The new results include: (i) a unified treatment of the continuous and the discrete-time cases; (ii) the proposal of two new extended regressor matrices, one which guarantees a quantifiable transient performance improvement, and the other exponential convergence under conditions that are strictly weaker than regressor persistence of excitation; and (iii) an alternative estimator ensuring parameter estimation in finite-time that retains its alertness to track time-varying parameters. Simulations that illustrate our results are also presented., Comment: 8 pages, 7 figures, under review in IEEE TAC

Published

2019

31. Sensorless Control of the Levitated Ball

Author

Bobtsov, Alexey, Pyrkin, Anton, Ortega, Romeo, Vedyakov, Alexey, Bobtsov, Alexey, Pyrkin, Anton, Ortega, Romeo, and Vedyakov, Alexey

Abstract

One of the most widely studied dynamical systems in nonlinear control theory is the levitated ball. Several full-state feedback controllers that ensure asymptotic regulation of the ball position have been reported in the literature. However, to the best of our knowledge, the design of a stabilizing law measuring only the current and the voltage - so-called sensorless control - is conspicuous by its absence. Besides its unquestionable theoretical interest, the high cost and poor reliability of position sensors for magnetic levitated systems, makes the problem of great practical application. Our main contribution is to provide the fist solution to this problem. Instrumental for the development of the theory is the use of parameter estimation-based observers, which combined with the dynamic regressor extension and mixing parameter estimation technique, allow the reconstruction of the magnetic flux. With the knowledge of the latter it is shown that the mechanical coordinates can be estimated with suitably tailored nonlinear observers. Replacing the observed states, in a certainty equivalent manner, with a full information asymptotically stabilising law completes the sensorless controller design. Simulation results are used to illustrate the performance of the proposed scheme., Comment: 8 pages, 7 figures. arXiv admin note: substantial text overlap with arXiv:1711.02733

Published

2018

32. A Robust Adaptive Flux Observer for a Class of Electromechanical Systems

Author

Pyrkin, Anton, Vedyakov, Alexey, Ortega, Romeo, Bobtsov, Alexey, Pyrkin, Anton, Vedyakov, Alexey, Ortega, Romeo, and Bobtsov, Alexey

Abstract

The problem of designing a flux observer for magnetic field electromechanical systems from noise corrupted measurements of currents and voltages is addressed in this paper. Imposing a constraint on the systems magnetic energy function, which allows us to construct an algebraic relation between fluxes and measured voltages and currents that is independent of the mechanical coordinates, we identify a class of systems for which a globally convergent adaptive observer can be designed. A new adaptive observer design technique that effectively exploits the aforementioned algebraic relation is proposed and successfully applied to the practically important examples of permanent magnet synchronous motors and magnetic levitation systems.

Published

2017

33. State Observers for Sensorless Control of Magnetic Levitation Systems

Author

Bobtsov, Alexey, Pyrkin, Anton, Ortega, Romeo, Vedyakov, Alexey, Bobtsov, Alexey, Pyrkin, Anton, Ortega, Romeo, and Vedyakov, Alexey

Abstract

In this paper we address the problem of state observation for sensorless control of nonlinear magnetic levitation systems, that is, the regulation of the position of a levitated object measuring only the voltage and current of the electrical supply. Instrumental for the development of the theory is the use of parameter estimation-based observers, which combined with the dynamic regressor extension and mixing parameter estimation technique, allow the reconstruction of the magnetic flux. With the knowledge of the latter it is shown that the mechanical coordinates can be estimated with suitably tailored nonlinear observers. Replacing the observed states, in a certainty equivalent manner, with a full information globally stabilising law completes the sensorless controller design. We consider one and two-degrees-of-freedom systems that, interestingly, demand totally different mathematical approaches for their solutions. Simulation results are used to illustrate the performance of the proposed schemes.

Published

2017

34. Identification of Photovoltaic Arrays' Maximum Power Extraction Point via Dynamic Regressor Extension and Mixing

Author

Pyrkin, Anton, Mancilla-David, Fernando, Ortega, Romeo, Bobtsov, Alexey, Aranovskiy, Stanislav, Pyrkin, Anton, Mancilla-David, Fernando, Ortega, Romeo, Bobtsov, Alexey, and Aranovskiy, Stanislav

Abstract

This paper deals with the problem of identification of photovoltaic arrays' maximum power extraction point---information that is encrypted in the current-voltage characteristic equation. We propose a new parameterisation of the classical five parameter model of this function that, combined with the recently introduced identification technique of dynamic regressor extension and mixing, ensures a fast and accurate estimation of all unknown parameters. A concavity property of the current-voltage characteristic equation is then exploited to directly identify the desired voltage operating point. Realistic numerical examples via computer simulations are presented to assess the performance of the proposed approach., Comment: This paper is submitted to th International Journal of Adaptive Control and Signal Processing

Published

2016