Publications

2019
Bendjerad A, Benhaya A, Bentercia T, F.Djeffal, Zergoug M, Smaili F. Determination of magnetic properties of a Ni/NiO/Ni multilayer: an ANFIS-based predictive techniqueAppl. Phys. A 125: 56. 2019.
Adel B, Benhaya A, Toufik B, Fayçal DJEFFAL, Zergoug M, Smaili F. Determination of magnetic properties of a Ni/NiO/Ni multilayer:an ANFIS-based predictive technique, ISSN / e-ISSN 0947-8396 / 1432-0630. Applied Physics AApplied Physics A. 2019;volume 125 :pp 56.Abstract
In this paper, Ni/NiO/Ni multilayers are deposited on glass substrates using radio frequency magnetron sputtering, where the structural and morphological properties are analyzed using X-ray diffraction besides scanning electron microscopy techniques. The associated magnetic hysteresis loops are obtained by vibrating sample magnetometer for temperatures ranging from - 100 to 300 °C. Hence, the parameters α, β, Bmax, HC, and Br defining a hysteresis loop are determined at each temperature using Preisach model for the first two parameters, while the remaining ones are deduced experimentally. The set of these parameters are introduced within the training data set in the context of an ANFIS-based approach to predict the hysteresis loop of a Ni/NiO/Ni multilayer for any temperature below the Curie temperature. The comparison conducted between theoretical and experimental results showed a good agreement. This work provided more insights regarding the consolidation of experimental characterization with the development of soft computing-based frameworks.
Adel B, Benhaya A, Toufik B, Fayçal DJEFFAL, Zergoug M, Smaili F. Determination of magnetic properties of a Ni/NiO/Ni multilayer:an ANFIS-based predictive technique, ISSN / e-ISSN 0947-8396 / 1432-0630. Applied Physics AApplied Physics A. 2019;volume 125 :pp 56.Abstract
In this paper, Ni/NiO/Ni multilayers are deposited on glass substrates using radio frequency magnetron sputtering, where the structural and morphological properties are analyzed using X-ray diffraction besides scanning electron microscopy techniques. The associated magnetic hysteresis loops are obtained by vibrating sample magnetometer for temperatures ranging from - 100 to 300 °C. Hence, the parameters α, β, Bmax, HC, and Br defining a hysteresis loop are determined at each temperature using Preisach model for the first two parameters, while the remaining ones are deduced experimentally. The set of these parameters are introduced within the training data set in the context of an ANFIS-based approach to predict the hysteresis loop of a Ni/NiO/Ni multilayer for any temperature below the Curie temperature. The comparison conducted between theoretical and experimental results showed a good agreement. This work provided more insights regarding the consolidation of experimental characterization with the development of soft computing-based frameworks.
Adel B, Benhaya A, Toufik B, Fayçal DJEFFAL, Zergoug M, Smaili F. Determination of magnetic properties of a Ni/NiO/Ni multilayer:an ANFIS-based predictive technique, ISSN / e-ISSN 0947-8396 / 1432-0630. Applied Physics AApplied Physics A. 2019;volume 125 :pp 56.Abstract
In this paper, Ni/NiO/Ni multilayers are deposited on glass substrates using radio frequency magnetron sputtering, where the structural and morphological properties are analyzed using X-ray diffraction besides scanning electron microscopy techniques. The associated magnetic hysteresis loops are obtained by vibrating sample magnetometer for temperatures ranging from - 100 to 300 °C. Hence, the parameters α, β, Bmax, HC, and Br defining a hysteresis loop are determined at each temperature using Preisach model for the first two parameters, while the remaining ones are deduced experimentally. The set of these parameters are introduced within the training data set in the context of an ANFIS-based approach to predict the hysteresis loop of a Ni/NiO/Ni multilayer for any temperature below the Curie temperature. The comparison conducted between theoretical and experimental results showed a good agreement. This work provided more insights regarding the consolidation of experimental characterization with the development of soft computing-based frameworks.
Adel B, Benhaya A, Toufik B, Fayçal DJEFFAL, Zergoug M, Smaili F. Determination of magnetic properties of a Ni/NiO/Ni multilayer:an ANFIS-based predictive technique, ISSN / e-ISSN 0947-8396 / 1432-0630. Applied Physics AApplied Physics A. 2019;volume 125 :pp 56.Abstract
In this paper, Ni/NiO/Ni multilayers are deposited on glass substrates using radio frequency magnetron sputtering, where the structural and morphological properties are analyzed using X-ray diffraction besides scanning electron microscopy techniques. The associated magnetic hysteresis loops are obtained by vibrating sample magnetometer for temperatures ranging from - 100 to 300 °C. Hence, the parameters α, β, Bmax, HC, and Br defining a hysteresis loop are determined at each temperature using Preisach model for the first two parameters, while the remaining ones are deduced experimentally. The set of these parameters are introduced within the training data set in the context of an ANFIS-based approach to predict the hysteresis loop of a Ni/NiO/Ni multilayer for any temperature below the Curie temperature. The comparison conducted between theoretical and experimental results showed a good agreement. This work provided more insights regarding the consolidation of experimental characterization with the development of soft computing-based frameworks.
Adel B, Benhaya A, Toufik B, Fayçal DJEFFAL, Zergoug M, Smaili F. Determination of magnetic properties of a Ni/NiO/Ni multilayer:an ANFIS-based predictive technique, ISSN / e-ISSN 0947-8396 / 1432-0630. Applied Physics AApplied Physics A. 2019;volume 125 :pp 56.Abstract
In this paper, Ni/NiO/Ni multilayers are deposited on glass substrates using radio frequency magnetron sputtering, where the structural and morphological properties are analyzed using X-ray diffraction besides scanning electron microscopy techniques. The associated magnetic hysteresis loops are obtained by vibrating sample magnetometer for temperatures ranging from - 100 to 300 °C. Hence, the parameters α, β, Bmax, HC, and Br defining a hysteresis loop are determined at each temperature using Preisach model for the first two parameters, while the remaining ones are deduced experimentally. The set of these parameters are introduced within the training data set in the context of an ANFIS-based approach to predict the hysteresis loop of a Ni/NiO/Ni multilayer for any temperature below the Curie temperature. The comparison conducted between theoretical and experimental results showed a good agreement. This work provided more insights regarding the consolidation of experimental characterization with the development of soft computing-based frameworks.
Adel B, Benhaya A, Toufik B, Fayçal DJEFFAL, Zergoug M, Smaili F. Determination of magnetic properties of a Ni/NiO/Ni multilayer:an ANFIS-based predictive technique, ISSN / e-ISSN 0947-8396 / 1432-0630. Applied Physics AApplied Physics A. 2019;volume 125 :pp 56.Abstract
In this paper, Ni/NiO/Ni multilayers are deposited on glass substrates using radio frequency magnetron sputtering, where the structural and morphological properties are analyzed using X-ray diffraction besides scanning electron microscopy techniques. The associated magnetic hysteresis loops are obtained by vibrating sample magnetometer for temperatures ranging from - 100 to 300 °C. Hence, the parameters α, β, Bmax, HC, and Br defining a hysteresis loop are determined at each temperature using Preisach model for the first two parameters, while the remaining ones are deduced experimentally. The set of these parameters are introduced within the training data set in the context of an ANFIS-based approach to predict the hysteresis loop of a Ni/NiO/Ni multilayer for any temperature below the Curie temperature. The comparison conducted between theoretical and experimental results showed a good agreement. This work provided more insights regarding the consolidation of experimental characterization with the development of soft computing-based frameworks.
Chennouf S, Bentalha F. Diffusion process in a perforated domain around a vanishing suspension. Asymptotic AnalysisAsymptotic Analysis. 2019;115 :127-145.
Chennouf S, Bentalha F. Diffusion process in a perforated domain around a vanishing suspension. Asymptotic AnalysisAsymptotic Analysis. 2019;115 :127-145.
Bensaadi H, Harbouche Y, Abdessmed R. DIRECT TORQUE CONTROL ( DTC-SVM ) OF PMSG BASED IN WIND ENERGY CONVERSION SYSTEM. U.P.B. Sci. Bull., Series CU.P.B. Sci. Bull., Series C. 2019;81.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, Abdessmed R. DIRECT TORQUE CONTROL ( DTC-SVM ) OF PMSG BASED IN WIND ENERGY CONVERSION SYSTEM. U.P.B. Sci. Bull., Series CU.P.B. Sci. Bull., Series C. 2019;81.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, Abdessmed R. DIRECT TORQUE CONTROL ( DTC-SVM ) OF PMSG BASED IN WIND ENERGY CONVERSION SYSTEM. U.P.B. Sci. Bull., Series CU.P.B. Sci. Bull., Series C. 2019;81.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.
Laggoun L, Kiyyour B, Boukhalfa G, Belkacem S, Benaggoune S. Direct torque control using fuzzy second order sliding mode speed regulator of double star permanent magnet synchronous machine. International Conference on Electrical Engineering and Control Applications. 2019 :139-153.
Laggoun L, Kiyyour B, Boukhalfa G, Belkacem S, Benaggoune S. Direct torque control using fuzzy second order sliding mode speed regulator of double star permanent magnet synchronous machine. International Conference on Electrical Engineering and Control Applications. 2019 :139-153.
Laggoun L, Kiyyour B, Boukhalfa G, Belkacem S, Benaggoune S. Direct torque control using fuzzy second order sliding mode speed regulator of double star permanent magnet synchronous machine. International Conference on Electrical Engineering and Control Applications. 2019 :139-153.
Laggoun L, Kiyyour B, Boukhalfa G, Belkacem S, Benaggoune S. Direct torque control using fuzzy second order sliding mode speed regulator of double star permanent magnet synchronous machine. International Conference on Electrical Engineering and Control Applications. 2019 :139-153.
Laggoun L, Kiyyour B, Boukhalfa G, Belkacem S, Benaggoune S. Direct torque control using fuzzy second order sliding mode speed regulator of double star permanent magnet synchronous machine. International Conference on Electrical Engineering and Control Applications. 2019 :139-153.
Boussaha A, Makhloufi R, Madani S. Displacement fields influence analysis caused by dislocation networks at a three layer system interfaces on the surface topology. Journal of Solid MechanicsJournal of Solid Mechanics. 2019;11 :606-614.
Boussaha A, Makhloufi R, Madani S. Displacement fields influence analysis caused by dislocation networks at a three layer system interfaces on the surface topology. Journal of Solid MechanicsJournal of Solid Mechanics. 2019;11 :606-614.
Boussaha A, Makhloufi R, Madani S. Displacement fields influence analysis caused by dislocation networks at a three layer system interfaces on the surface topology. Journal of Solid MechanicsJournal of Solid Mechanics. 2019;11 :606-614.

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