Publications by Author: Abdessemed, Rachid

2022
OUNISSI AMOUR, Kaddouri A, Aggoune MS, Abdessemed R. SECOND ORDER SLIDING MODE CONTROLLERS OF MICROPOSITIONING STAGE PIEZOELECTRIC ACTUATOR WITH COLMAN-HODGDON MODEL PARAMETERS. Rev. Roum. Sci. Techn.– Électrotechn. et Énerg [Internet]. 2022;1 (67) :41–46. Publisher's VersionAbstract

This paper presents the second-order sliding mode controller (SOSMC) of a micro-positioning stage piezoelectric model actuator (PEA), where the C-H model parameters are adopted to describe the hysteresis behavior and identified through particle swarm optimization. In this technique, two control algorithms are developed. The first one is the so-called twisting algorithm (TA). The control appears explicitly in the second surface derivative, and in a discontinuous control action that ensures a sliding regime mode. The second one, the super twisting algorithms (STA) has been developed and analyzed for systems. The use of both algorithms gives a significant reduction in chattering as compared to the standard sliding mode control. It is shown that the STA case offers better performances than TA. Simulation results are presented to demonstrate the advantage of SOSMC over SMC.

Benabbas A, Zaidi E, Abdessemed R. Sliding Mode Control of a Wind Power System Based on a Self-Excited Asynchronous Generator. Journal Européen des Systèmes Automatisés [Internet]. 2022;55 (1) :131-137. Publisher's VersionAbstract

In this work, the modeling and the sliding mode control of a self-excited asynchronous generator integrated in a wind energy conversion system is studied. The dc-link voltage and frequency output by the wind turbine depend on the wind intensity applied to the turbine and load. The goal of the study is to increase energy quality and to achieve a stabilization of dc-link voltage and frequency values based on sliding mode control. This method offers stability and robustness against external disturbances. However, this method is based in the power converter to improve the excellent dynamic of wind energy conversion system to meet the connection to the main grid. The simulation results show the efficiency and reliability of the proposed control method.

2021
BENDJEDDOU YACINE, Abdessemed R, MERABET ELKHEIR. COMMANDE A FLUX VIRTUEL ORIENTE DE LA GENERATRICE ASYNCHRONE A CAGE DOUBLE ÉTOILE. Revue Roumaine des Sciences Techniques - Serie Électrotechnique et Énergétique. 2021 :2021.Abstract
Cet article est consacré à l’étude des performances de la génératrice asynchrone à cage double étoile (GASDE) en site isolé. Le système de commande est composé d’une GASDE raccordé à un bus continu et une charge en sortie de deux redresseurs à commande MLI. Une étude comparative entre la technique de commande conventionnelle et la commande adaptée basée sur l’introduction de la SVM-PI-flou et un nouvel estimateur de flux (flux virtuel statorique) afin d’améliorer la qualité d’énergie et d’atténuer les harmoniques du courant.
ZARROUKI M-B-E, Benaggoune S, Abdessemed R. STRATÉGIE DE CONTRÔLE NON LINÉAIRE OPTIMISÉE POUR LE GÉNÉRATEUR SYNCHRONE À AIMANT PERMANENT (GSAP) DANS LE SYSTÈME DE CONVERSION DE L'ÉNERGIE ÉOLIENNE (SCEE). U.P.B. Sci. Bull., Series C [Internet]. 2021;83 (1). Publisher's VersionAbstract
L’article décrit la conception et la mise en øe}uvre en temps réel d’une commande non linéaire appliquée à un système de conversion de l’énergie éolienne (SCEE). La commande backstepping a été mise en øe}uvre pour améliorer les performances du système de conversion éolienne basé sur un générateur synchrone à aimants permanents (PMSG) connecté au réseau. Deux convertisseurs statiques assurent la connexion au réseau et sont contrôlés par la modulation de largeur d’impulsion (MLI). L’algorithme de contrôle proposé assure un contrôle de vitesse adéquat pour extraire la puissance maximale. Une description détaillée des lois de contrôle du backstepping basées sur la technique de stabilité de Lyapunov a été exposée. Les résultats obtenus par l’application de cette approche ont clairement répondu aux exigences de robustesse et de suivi des références même dans des conditions de vent fluctuants, et ont confirmé l’efficacité d’un tel contrôle dans les modes de fonctionnement statique et dynamique.
BENDJEDDOU YACINE, Deboucha A, Bentouhami L, MERABET ELKHEIR, Abdessemed R. Super twisting sliding mode approach applied to voltage orientated control of a stand-alone induction generator. Protection and Control of Modern Power Systems [Internet]. 2021;6 :18. Publisher's VersionAbstract
To enhance the robustness and dynamic performance of a self-excited induction generator (SEIG) used in a stand-alone wind energy system (WES), a virtual flux oriented control (VFOC) based on nonlinear super-twisting sliding mode control (STSMC) is adopted. STSMC is used to replace the conventional proportional-integral-Fuzzy Logic Controller (PI-FLC) of the inner current control loops. The combination of the proposed control strategy with space vector modulation (SVM) applied to a PWM rectifier brings many advantages such as reduction in harmonics, and precise and rapid tracking of the references. The performance of the proposed control technique (STSMC-VFOC-SVM) is verified through simulations and compared with the traditional technique (PI-FLC-VFOC-SVM). It shows that the proposed method improves the dynamics of the system with reduced current harmonics. In addition, the use of a virtual flux estimator instead of a phase-locked loop (PLL) eliminates the line voltage sensors and thus increases the reliability of the system.
BENDJEDDOU YACINE, Abdessemed R, MERABET ELKHEIR. COMMANDE A FLUX VIRTUEL ORIENTE DE LA GENERATRICE ASYNCHRONE A CAGE DOUBLE ÉTOILE. Revue Roumaine des Sciences Techniques - Serie Électrotechnique et Énergétique [Internet]. 2021;66 (2) :2021. Publisher's VersionAbstract

Cet article est consacré à l’étude des performances de la génératrice asynchrone à cage double étoile (GASDE) en site isolé. Le système de commande est composé d’une GASDE raccordé à un bus continu et une charge en sortie de deux redresseurs à commande MLI. Une étude comparative entre la technique de commande conventionnelle et la commande adaptée basée sur l’introduction de la SVM-PI-flou et un nouvel estimateur de flux (flux virtuel statorique) afin d’améliorer la qualité d’énergie et d’atténuer les harmoniques du courant.

BENDJEDDOU YACINE, Abdessemed R, MERABET ELKHEIR. DIRECTIONAL VIRTUAL FLOW CONTROL OF THE DOUBLE STAR CAGE ASYNCHRONOUS GENERATOR. Revue Roumaine des Sciences Techniques—Série Électrotechnique et Énergétique [Internet]. 2021;66 :71-76. Publisher's VersionAbstract

This article is devoted to the study of the performance of the double star cage asynchronous generator (GASDE) in isolated site. The control system consists of a GASDE connected to a dc bus and a load at the output of two PWM control rectifiers. A comparative study between the conventional control technique and the adapted control based on the introduction of the SVM- PI-fuzzy and a new flux estimator (virtual stator flux) in order to improve the quality of energy and to attenuate the harmonic of the current.

ZARROUKI M-B-E, Benaggoune S, Abdessemed R. STRATÉGIE DE CONTRÔLE NON LINÉAIRE OPTIMISÉE POUR LE GÉNÉRATEUR SYNCHRONE À AIMANT PERMANENT (GSAP) DANS LE SYSTÈME DE CONVERSION DE L&⋕39;ÉNERGIE ÉOLIENNE (SCEE). U.P.B. Sci. Bull., Series CU.P.B. Sci. Bull., Series C. 2021;83.Abstract
L’article décrit la conception et la mise en øeuvre en temps réel d’une commande non linéaire appliquée à un système de conversion de l’énergie éolienne (SCEE). La commande backstepping a été mise en øeuvre pour améliorer les performances du système de conversion éolienne basé sur un générateur synchrone à aimants permanents (PMSG) connecté au réseau. Deux convertisseurs statiques assurent la connexion au réseau et sont contrôlés par la modulation de largeur d’impulsion (MLI). L’algorithme de contrôle proposé assure un contrôle de vitesse adéquat pour extraire la puissance maximale. Une description détaillée des lois de contrôle du backstepping basées sur la technique de stabilité de Lyapunov a été exposée. Les résultats obtenus par l’application de cette approche ont clairement répondu aux exigences de robustesse et de suivi des références même dans des conditions de vent fluctuants, et ont confirmé l’efficacité d’un tel contrôle dans les modes de fonctionnement statique et dynamique.
BENDJEDDOU YACINE, Deboucha A, Bentouhami L, MERABET ELKHEIR, Abdessemed R. Super twisting sliding mode approach applied to voltage orientated control of a stand-alone induction generator. Protection and Control of Modern Power SystemsProtection and Control of Modern Power Systems. 2021;6 :18.Abstract
To enhance the robustness and dynamic performance of a self-excited induction generator (SEIG) used in a stand-alone wind energy system (WES), a virtual flux oriented control (VFOC) based on nonlinear super-twisting sliding mode control (STSMC) is adopted. STSMC is used to replace the conventional proportional-integral-Fuzzy Logic Controller (PI-FLC) of the inner current control loops. The combination of the proposed control strategy with space vector modulation (SVM) applied to a PWM rectifier brings many advantages such as reduction in harmonics, and precise and rapid tracking of the references. The performance of the proposed control technique (STSMC-VFOC-SVM) is verified through simulations and compared with the traditional technique (PI-FLC-VFOC-SVM). It shows that the proposed method improves the dynamics of the system with reduced current harmonics. In addition, the use of a virtual flux estimator instead of a phase-locked loop (PLL) eliminates the line voltage sensors and thus increases the reliability of the system.
BENDJEDDOU YACINE, Abdessemed R, MERABET ELKHEIR. COMMANDE A FLUX VIRTUEL ORIENTE DE LA GENERATRICE ASYNCHRONE A CAGE DOUBLE ÉTOILE. Rev. Roum. Sci. Techn.– Électrotechn. et Énerg [Internet]. 2021;66 (2) :71–76. Publisher's VersionAbstract
Cet article est consacré à l’étude des performances de la génératrice asynchrone à cage double étoile (GASDE) en site isolé. Le système de commande est composé d’une GASDE raccordé à un bus continu et une charge en sortie de deux redresseurs à commande MLI. Une étude comparative entre la technique de commande conventionnelle et la commande adaptée basée sur l’introduction de la SVM-PI-flou et un nouvel estimateur de flux (flux virtuel statorique) afin d’améliorer la qualité d’énergie et d’atténuer les harmoniques du courant
ZARROUKI MBE, Benaggoune S, Abdessemed R. STRATÉGIE DE CONTRÔLE NON LINÉAIRE OPTIMISÉE POUR LE GÉNÉRATEUR SYNCHRONE À AIMANT PERMANENT (GSAP) DANS LE SYSTÈME DE CONVERSION DE L'ÉNERGIE ÉOLIENNE (SCEE). U.P.B. Sci. Bull., Series C [Internet]. 2021;83 (1). Publisher's VersionAbstract

L'article décrit la conception et la mise en œuvre en temps réel d'une commande non linéaire appliquée à un système de conversion de l'énergie éolienne (SCEE). La commande backstepping a été mise en œuvre pour améliorer les performances du système de conversion éolienne basé sur un générateur synchrone à aimants permanents (PMSG) connecté au réseau. Deux convertisseurs statiques assurent la connexion au réseau et sont contrôlés par la modulation de largeur d'impulsion (MLI). L'algorithme de contrôle proposé assure un contrôle de vitesse adéquat pour extraire la puissance maximale. Une description détaillée des lois de contrôle du backstepping basées sur la technique de stabilité de Lyapunov a été exposée. Les résultats obtenus par l'application de cette approche ont clairement répondu aux exigences de robustesse et de suivi des références même dans des conditions de vent fluctuants, et ont confirmé l'efficacité d'un tel contrôle dans les modes de fonctionnement statique et dynamique.

2020
BENDJEDDOU YACINE, Abdessemed R, MERABET ELKHEIR. Improved field oriented control for stand alone dual star induction generator used in wind energy conversion. Engineering Review [Internet]. 2020;40 :34. Publisher's VersionAbstract
This paper presents a novel direct rotor flux oriented control with online estimation of magnetizing current and magnetizing inductance applied to self-excited dual star induction generator equipping a wind turbine in remote sites. The induction generator is connected to nonlinear load through two PWM rectifiers. The fuzzy logic controller is used to ensure the DC bus voltage a constant value when changes in speed and load conditions. In this study, a performance comparison between the conventional approach and the novel approach is made. The proposed control strategy is validated by simulation in Matlab/Simulink.
BENDJEDDOU YACINE, Abdessemed R, MERABET ELKHEIR. Improved field oriented control for stand alone dual star induction generator used in wind energy conversion. Engineering ReviewEngineering Review. 2020;40 :34.Abstract
This paper presents a novel direct rotor flux oriented control with online estimation of magnetizing current and magnetizing inductance applied to self-excited dual star induction generator equipping a wind turbine in remote sites. The induction generator is connected to nonlinear load through two PWM rectifiers. The fuzzy logic controller is used to ensure the DC bus voltage a constant value when changes in speed and load conditions. In this study, a performance comparison between the conventional approach and the novel approach is made. The proposed control strategy is validated by simulation in Matlab/Simulink.
2019
Rouabhi R, Abdessemed R, Abdelghafour H, Moustafad B. Comparative Study Between Two Control Techniques Applied on the Permanent Magnet Synchronous Machine (PMSM). Advances in Modelling and Analysis C [Internet]. 2019;74 :51-58. Publisher's VersionAbstract
In this article, we present a comparative study between two control techniques applied on the Permanent Magnet Synchronous Machine (PMSM), namely vector control and fuzzy logic. This comparison is based on three criteria: qualitative, quantitative and robust during the transient and permanent operation of the system. The latter comprises a machine is driven through the stator variables by two bidirectional converters. In the first part, we have presented the individual modeling of the global chain (PMSM, Inverter, and Rectifier). Then we presented and developed the two commands techniques to control the speed and the torque produced by this machine. The results of this study made it possible to evaluate the performance of these controls.
Bensaadi H, Harbouche Y, Abdessemed R. Direct torque control (DTC-SVM) of PMSG based in wind energy conversion system. U.P.B. Sci. Bull., Series C. 2019;81 (2).Abstract
This paper presents a comparative study between two strategies for the direct torque control (DTC) of the permanent magnet synchronous generator (PMSG) based on wind energy conversion system (WECS). The first method is a conventional direct torque control DTC and it is based on hysteresis controllers where the torque and the flux are regulated by these controllers. The second one is direct torque control by space vector modulation strategy (DTC-SVM) where the torque and flux are regulated by PI controllers. The simulation results are implemented by using MATLAB/SIMULINK. The main feature of the proposed (DTC-SVM) strategy is the reduction of torque and flux ripples. The proposed approach can be considered as an alternative solution to the control of PMSG.
Bensaadi H, Harbouche Y, Abdessemed R. DIRECT TORQUE CONTROL ( DTC-SVM ) OF PMSG BASED IN WIND ENERGY CONVERSION SYSTEM. U.P.B. Sci. Bull., Series C [Internet]. 2019;81 (2). Publisher's VersionAbstract
This paper presents a comparative study between two strategies for the direct torque control (DTC) of the permanent magnet synchronous generator (PMSG) based on wind energy conversion system (WECS). The first method is a conventional direct torque control DTC and it is based on hysteresis controllers where the torque and the flux are regulated by these controllers. The second one is direct torque control by space vector modulation strategy (DTC-SVM) where the torque and flux are regulated by PI controllers. The simulation results are implemented by using MATLAB/SIMULINK. The main feature of the proposed (DTC-SVM) strategy is the reduction of torque and flux ripples. The proposed approach can be considered as an alternative solution to the control of PMSG.
Bouali K, KADID FZ, BERGOUG N, Abdessemed R. OPTIMAL DESIGN OF INDUCTION MAGNETOHYDRODYNAMIC PUMP BY SIMULATED ANNEALING METHOD. Rev. Roum. Sci. Techn.– Électrotechn. et Énerg [Internet]. 2019;64 (4) :317–321. Publisher's VersionAbstract
The magnetohydrodynamics (MHD) is an important interdisciplinary field. It is the interaction between an electromagnetic field and an electrically conducting fluid. Electromagnetic pumps are widely used for the transportation of the fluids in a variety of technological processes. The advantage of these devices is that permits the pumping of liquids without moving parts. The design of the pump is considered as an optimization problem where the objective function is the minimum of the MHD pump mass with both geometrical and electromagnetic contraints type. The obtained optimization results using the finite volume method with Matlab software show the performances of the used stochastic simulated annealing method.
Moussa O, Abdessemed R, Benaggoune S, Benguesmia H. Sliding Mode Control of a Grid-Connected Brushless Doubly Fed Induction Generator. European Journal of Electrical Engineering [Internet]. 2019;21 :421-430. Publisher's VersionAbstract
This paper designs an indirect power control method for brushless doubly fed induction generator (BDFIG), in which the stator is attached to grid with back-to-back space vector modulation (SVM) converter that converts the generated wind power. Our control method is a sliding mode control based on the theory of variable structure control. Specifically, the active and reactive powers, which are exchanged between the stator of the BDFIG and the grid in a linear and decoupled manner, are subjected to decoupled, vector control. In addition, a proportional integral (PI) controller was implemented to keep the DC-voltage constant for the back-to-back SVM converter. The efficiency of our control strategy was validated through simulation. The research greatly promotes the control of renewable energy generators.
Moussa O, Abdessemed R, Benaggoune S. Super-twisting sliding mode control for brushless doubly fed induction generator based on WECS. International Journal of System Assurance Engineering and Management [Internet]. 2019;10 :1145–1157. Publisher's VersionAbstract
This paper deals with the robust power control of a grid-connected brushless doubly-fed induction generator (BDFIG) driven by the variable speed wind turbine. With the using of a super twisting algorithm which is a high-order sliding mode controller (HOSMC). This approach guarantees both the dynamic performance and the same robustness as traditional first order (SMC) algorithm and reduces the chattering phenomenon, which is the biggest disadvantage in the implementation of this technique. The developed algorithm relies on the decoupling control by implementing the strategy of oriented grid flux vector control. In order to enhance the desired performances, an attempt is made by controlling the generated stator active and reactive powers in a linear and decoupled manner to ensure the global asymptotical stability, HOSMC approach is implemented. Therefore, an optimal operation of the BDFIG in sub-synchronous operation is used in addition to the stator power flows where the stator power factor is kept in a unity. The suggested method is examined with the Matlab/Simulink software. The performances and the feasibility of the designed control are illustrated by simulation results.
Rouabhi R, Abdessemed R, Abdelghafour H, Moustafad B. Comparative Study Between Two Control Techniques Applied on the Permanent Magnet Synchronous Machine (PMSM). Advances in Modelling and Analysis CAdvances in Modelling and Analysis C. 2019;74 :51-58.Abstract
In this article, we present a comparative study between two control techniques applied on the Permanent Magnet Synchronous Machine (PMSM), namely vector control and fuzzy logic. This comparison is based on three criteria: qualitative, quantitative and robust during the transient and permanent operation of the system. The latter comprises a machine is driven through the stator variables by two bidirectional converters. In the first part, we have presented the individual modeling of the global chain (PMSM, Inverter, and Rectifier). Then we presented and developed the two commands techniques to control the speed and the torque produced by this machine. The results of this study made it possible to evaluate the performance of these controls.

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