Publications

2019
Yazid ZM, Lamia Y, Belkacem S, Farid N. Design of Robust Control using Fuzzy Logic Controller for Doubly Frd Induction Motor Drives, ISSN / e-ISSN 1454 / 234X. UPB Scientific Bulletin, Series A: Applied Mathematics and Physics [Internet]. 2019;volume 81 (issue 1). Publisher's VersionAbstract
This paper presents a fuzzy logic controller destined to the doubly-fed induction motor (DFIM) speed controlling. It solves the problems associated with the conventional IP (Integral Proportional) controller. This fuzzy logic controller is based on the decoupling control to enhance robustness under different operating conditions such as load torque and in the presence of parameters variation. The simulation results for various scenarios show the high performances of the proposed control in terms of piloting effectiveness, precision, rapidity and stability for the high powers DFIM operating at variable speeds.
Yazid ZM, Lamia Y, Belkacem S, Farid N. Design of Robust Control using Fuzzy Logic Controller for Doubly Frd Induction Motor Drives, ISSN / e-ISSN 1454 / 234X. UPB Scientific Bulletin, Series A: Applied Mathematics and Physics [Internet]. 2019;volume 81 (issue 1). Publisher's VersionAbstract
This paper presents a fuzzy logic controller destined to the doubly-fed induction motor (DFIM) speed controlling. It solves the problems associated with the conventional IP (Integral Proportional) controller. This fuzzy logic controller is based on the decoupling control to enhance robustness under different operating conditions such as load torque and in the presence of parameters variation. The simulation results for various scenarios show the high performances of the proposed control in terms of piloting effectiveness, precision, rapidity and stability for the high powers DFIM operating at variable speeds.
Nabil B, Dahmane H, Bachir H, Khaldoun LI, Abdelhadi B. Development of Multi-Coils Circular Eddy Current Sensor for Characterization of Fibers Orientation and Defect Detection in Multidirectional CFRP Material, ISSN / e-ISSN 0934-9847 / 1432-2110. Research in Nondestructive Evaluation [Internet]. 2019. Publisher's VersionAbstract
This article presents a study of a Multi-coils circular eddy current non-destructive testing sensor for determining the fibers orientation as well as the detection of defect in multidirectional carbon fibers reinforced polymer (CFRP). The developed sensor contains 16 rectangular coils connected in series and supplied by a single-phase sinusoidal source. This sensor allows the annulations of the mechanical rotation of the conventional sensors and it permits to reduce the inspection procedure duration. The electromagnetic phenomena are calculated by using 3D finite element method (FEM) based on the electromagnetic AV-A formulation. Finally, the Multi-coils circular sensor responses are analyzed through polar diagrams of the impedance variation, where the defect is taken into consideration. A great concordance between the obtained results and those of literatures has been noticed. The provided results show that the proposed sensor allows an efficient characterization of multidirectional CFRP and detection of defects in different layers.
Nabil B, Dahmane H, Bachir H, Khaldoun LI, Abdelhadi B. Development of Multi-Coils Circular Eddy Current Sensor for Characterization of Fibers Orientation and Defect Detection in Multidirectional CFRP Material, ISSN / e-ISSN 0934-9847 / 1432-2110. Research in Nondestructive Evaluation [Internet]. 2019. Publisher's VersionAbstract
This article presents a study of a Multi-coils circular eddy current non-destructive testing sensor for determining the fibers orientation as well as the detection of defect in multidirectional carbon fibers reinforced polymer (CFRP). The developed sensor contains 16 rectangular coils connected in series and supplied by a single-phase sinusoidal source. This sensor allows the annulations of the mechanical rotation of the conventional sensors and it permits to reduce the inspection procedure duration. The electromagnetic phenomena are calculated by using 3D finite element method (FEM) based on the electromagnetic AV-A formulation. Finally, the Multi-coils circular sensor responses are analyzed through polar diagrams of the impedance variation, where the defect is taken into consideration. A great concordance between the obtained results and those of literatures has been noticed. The provided results show that the proposed sensor allows an efficient characterization of multidirectional CFRP and detection of defects in different layers.
Nabil B, Dahmane H, Bachir H, Khaldoun LI, Abdelhadi B. Development of Multi-Coils Circular Eddy Current Sensor for Characterization of Fibers Orientation and Defect Detection in Multidirectional CFRP Material, ISSN / e-ISSN 0934-9847 / 1432-2110. Research in Nondestructive Evaluation [Internet]. 2019. Publisher's VersionAbstract
This article presents a study of a Multi-coils circular eddy current non-destructive testing sensor for determining the fibers orientation as well as the detection of defect in multidirectional carbon fibers reinforced polymer (CFRP). The developed sensor contains 16 rectangular coils connected in series and supplied by a single-phase sinusoidal source. This sensor allows the annulations of the mechanical rotation of the conventional sensors and it permits to reduce the inspection procedure duration. The electromagnetic phenomena are calculated by using 3D finite element method (FEM) based on the electromagnetic AV-A formulation. Finally, the Multi-coils circular sensor responses are analyzed through polar diagrams of the impedance variation, where the defect is taken into consideration. A great concordance between the obtained results and those of literatures has been noticed. The provided results show that the proposed sensor allows an efficient characterization of multidirectional CFRP and detection of defects in different layers.
Nabil B, Dahmane H, Bachir H, Khaldoun LI, Abdelhadi B. Development of Multi-Coils Circular Eddy Current Sensor for Characterization of Fibers Orientation and Defect Detection in Multidirectional CFRP Material, ISSN / e-ISSN 0934-9847 / 1432-2110. Research in Nondestructive Evaluation [Internet]. 2019. Publisher's VersionAbstract
This article presents a study of a Multi-coils circular eddy current non-destructive testing sensor for determining the fibers orientation as well as the detection of defect in multidirectional carbon fibers reinforced polymer (CFRP). The developed sensor contains 16 rectangular coils connected in series and supplied by a single-phase sinusoidal source. This sensor allows the annulations of the mechanical rotation of the conventional sensors and it permits to reduce the inspection procedure duration. The electromagnetic phenomena are calculated by using 3D finite element method (FEM) based on the electromagnetic AV-A formulation. Finally, the Multi-coils circular sensor responses are analyzed through polar diagrams of the impedance variation, where the defect is taken into consideration. A great concordance between the obtained results and those of literatures has been noticed. The provided results show that the proposed sensor allows an efficient characterization of multidirectional CFRP and detection of defects in different layers.
Nabil B, Dahmane H, Bachir H, Khaldoun LI, Abdelhadi B. Development of Multi-Coils Circular Eddy Current Sensor for Characterization of Fibers Orientation and Defect Detection in Multidirectional CFRP Material, ISSN / e-ISSN 0934-9847 / 1432-2110. Research in Nondestructive Evaluation [Internet]. 2019. Publisher's VersionAbstract
This article presents a study of a Multi-coils circular eddy current non-destructive testing sensor for determining the fibers orientation as well as the detection of defect in multidirectional carbon fibers reinforced polymer (CFRP). The developed sensor contains 16 rectangular coils connected in series and supplied by a single-phase sinusoidal source. This sensor allows the annulations of the mechanical rotation of the conventional sensors and it permits to reduce the inspection procedure duration. The electromagnetic phenomena are calculated by using 3D finite element method (FEM) based on the electromagnetic AV-A formulation. Finally, the Multi-coils circular sensor responses are analyzed through polar diagrams of the impedance variation, where the defect is taken into consideration. A great concordance between the obtained results and those of literatures has been noticed. The provided results show that the proposed sensor allows an efficient characterization of multidirectional CFRP and detection of defects in different layers.
Ilhem RAZI. Etude d'un Volant d'Inertie. 2019.
Fayrouze RAHAMINE. Etude d'une Batterie Solaire. 2019.
Siham MOHAMEDCHERIF. Etude et modélisation numérique d'une machine à courant continu sans balais. 2019.
Mahfoud AOUFI, Lakhdar KHODJA. Étude et Réalisation d'un Banc D'essai Dédie aux Applications du Contrôle Non Destructif par Courants de Foucault. 2019.
Mahfoud AOUFI, Lakhdar KHODJA. Étude et Réalisation d'un Banc D'essai Dédie aux Applications du Contrôle Non Destructif par Courants de Foucault. 2019.
SADI.M.A. Faults Diagnosis of Turbo-Generator using Artificial Intelligence. 2019.
Bouchala T, Anouaressadate A, Abdelhadi B, Azeddine B. Fictitious electric conductivity modelling of eddycurrent evaluation of magnetic materials, ISSN / e-ISSN 1058-9759 / 1477-2671. Nondestructive Testing and Evaluation [Internet]. 2019 :pp. 19-28. Publisher's VersionAbstract
This paper presents a new modeling approach of eddy current nondestructive evaluation systems containing magnetic materials. Originally, the proposed model is based on coupled circuits principle and the notion of equivalent current density. In order to make the model homogenous, we consider the current density as a state variable since this density is compatible with the representation of the magnetisation by equivalent currents. By introducing the fictitious electric conductivity approach, the sensor impedance is expressed according to magnetic tube or plate characteristics such as electric conductivity and magnetic permeability. An excellent concordance is achieved by comparing the calculated results to those of analytical ones. Regarding the mesh simplicity and the fast calculation, this method is very adapted for the resolution of the inverse problems for real time evaluation of the properties of magnetic materials.
Bouchala T, Anouaressadate A, Abdelhadi B, Azeddine B. Fictitious electric conductivity modelling of eddycurrent evaluation of magnetic materials, ISSN / e-ISSN 1058-9759 / 1477-2671. Nondestructive Testing and Evaluation [Internet]. 2019 :pp. 19-28. Publisher's VersionAbstract
This paper presents a new modeling approach of eddy current nondestructive evaluation systems containing magnetic materials. Originally, the proposed model is based on coupled circuits principle and the notion of equivalent current density. In order to make the model homogenous, we consider the current density as a state variable since this density is compatible with the representation of the magnetisation by equivalent currents. By introducing the fictitious electric conductivity approach, the sensor impedance is expressed according to magnetic tube or plate characteristics such as electric conductivity and magnetic permeability. An excellent concordance is achieved by comparing the calculated results to those of analytical ones. Regarding the mesh simplicity and the fast calculation, this method is very adapted for the resolution of the inverse problems for real time evaluation of the properties of magnetic materials.
Bouchala T, Anouaressadate A, Abdelhadi B, Azeddine B. Fictitious electric conductivity modelling of eddycurrent evaluation of magnetic materials, ISSN / e-ISSN 1058-9759 / 1477-2671. Nondestructive Testing and Evaluation [Internet]. 2019 :pp. 19-28. Publisher's VersionAbstract
This paper presents a new modeling approach of eddy current nondestructive evaluation systems containing magnetic materials. Originally, the proposed model is based on coupled circuits principle and the notion of equivalent current density. In order to make the model homogenous, we consider the current density as a state variable since this density is compatible with the representation of the magnetisation by equivalent currents. By introducing the fictitious electric conductivity approach, the sensor impedance is expressed according to magnetic tube or plate characteristics such as electric conductivity and magnetic permeability. An excellent concordance is achieved by comparing the calculated results to those of analytical ones. Regarding the mesh simplicity and the fast calculation, this method is very adapted for the resolution of the inverse problems for real time evaluation of the properties of magnetic materials.
Bouchala T, Anouaressadate A, Abdelhadi B, Azeddine B. Fictitious electric conductivity modelling of eddycurrent evaluation of magnetic materials, ISSN / e-ISSN 1058-9759 / 1477-2671. Nondestructive Testing and Evaluation [Internet]. 2019 :pp. 19-28. Publisher's VersionAbstract
This paper presents a new modeling approach of eddy current nondestructive evaluation systems containing magnetic materials. Originally, the proposed model is based on coupled circuits principle and the notion of equivalent current density. In order to make the model homogenous, we consider the current density as a state variable since this density is compatible with the representation of the magnetisation by equivalent currents. By introducing the fictitious electric conductivity approach, the sensor impedance is expressed according to magnetic tube or plate characteristics such as electric conductivity and magnetic permeability. An excellent concordance is achieved by comparing the calculated results to those of analytical ones. Regarding the mesh simplicity and the fast calculation, this method is very adapted for the resolution of the inverse problems for real time evaluation of the properties of magnetic materials.
Boukhalfa G, Sebti B, Abdesselem C, Said BENAGGOUNE. Genetic Algorithm and Particle Swarm Optimization tuned fuzzy PID Controller on direct torque control of dual star induction motor, ISSN / e-ISSN 2095-2899 / 1993-0666. Journal of Central South University [Internet]. 2019;volume 26 (N°7) :pp. 1886–1896. Publisher's VersionAbstract
This study presents analysis, control and comparison of three hybrid approaches for the direct torque control (DTC) of the dual star induction motor (DSIM) drive. Its objective consists of combining three different heuristic optimization techniques including PID-PSO, Fuzzy-PSO and GA-PSO to improve the DSIM speed controlled loop behavior. The GA and PSO algorithms are developed and implemented into MATLAB. As a result, fuzzy-PSO is the most appropriate scheme. The main performance of fuzzy-PSO is reducing high torque ripples, improving rise time and avoiding disturbances that affect the drive performance.
Boukhalfa G, Sebti B, Abdesselem C, Said BENAGGOUNE. Genetic Algorithm and Particle Swarm Optimization tuned fuzzy PID Controller on direct torque control of dual star induction motor, ISSN / e-ISSN 2095-2899 / 1993-0666. Journal of Central South University [Internet]. 2019;volume 26 (N°7) :pp. 1886–1896. Publisher's VersionAbstract
This study presents analysis, control and comparison of three hybrid approaches for the direct torque control (DTC) of the dual star induction motor (DSIM) drive. Its objective consists of combining three different heuristic optimization techniques including PID-PSO, Fuzzy-PSO and GA-PSO to improve the DSIM speed controlled loop behavior. The GA and PSO algorithms are developed and implemented into MATLAB. As a result, fuzzy-PSO is the most appropriate scheme. The main performance of fuzzy-PSO is reducing high torque ripples, improving rise time and avoiding disturbances that affect the drive performance.
Boukhalfa G, Sebti B, Abdesselem C, Said BENAGGOUNE. Genetic Algorithm and Particle Swarm Optimization tuned fuzzy PID Controller on direct torque control of dual star induction motor, ISSN / e-ISSN 2095-2899 / 1993-0666. Journal of Central South University [Internet]. 2019;volume 26 (N°7) :pp. 1886–1896. Publisher's VersionAbstract
This study presents analysis, control and comparison of three hybrid approaches for the direct torque control (DTC) of the dual star induction motor (DSIM) drive. Its objective consists of combining three different heuristic optimization techniques including PID-PSO, Fuzzy-PSO and GA-PSO to improve the DSIM speed controlled loop behavior. The GA and PSO algorithms are developed and implemented into MATLAB. As a result, fuzzy-PSO is the most appropriate scheme. The main performance of fuzzy-PSO is reducing high torque ripples, improving rise time and avoiding disturbances that affect the drive performance.

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