Publications

2018
Mazouz F, Belkacem S, Colak I, Drid S. Direct power control of DFIG by sliding mode control and space vector modulation. 2018 7th International Conference on Systems and Control (ICSC). 2018 :462-467.
Mazouz F, Belkacem S, Colak I, Drid S. Direct Power Control of DFIG by Sliding Mode Control and Space Vector Modulation. 7th International conference on system and control, IEEE (ICSC), Valencia – Spain, October, 24-267th International conference on system and control, IEEE (ICSC), Valencia – Spain, October, 24-26. 2018.
Mazouz F, Belkacem S, Colak I, Drid S. Direct power control of DFIG by sliding mode control and space vector modulation. 2018 7th International Conference on Systems and Control (ICSC). 2018 :462-467.
Mazouz F, Belkacem S, Colak I, Drid S. Direct Power Control of DFIG by Sliding Mode Control and Space Vector Modulation. 7th International conference on system and control, IEEE (ICSC), Valencia – Spain, October, 24-267th International conference on system and control, IEEE (ICSC), Valencia – Spain, October, 24-26. 2018.
Mazouz F, Belkacem S, Colak I, Drid S. Direct power control of DFIG by sliding mode control and space vector modulation. 2018 7th International Conference on Systems and Control (ICSC). 2018 :462-467.
Mazouz F, Belkacem S, Colak I, Drid S. Direct Power Control of DFIG by Sliding Mode Control and Space Vector Modulation. 7th International conference on system and control, IEEE (ICSC), Valencia – Spain, October, 24-267th International conference on system and control, IEEE (ICSC), Valencia – Spain, October, 24-26. 2018.
Boukhalfa G, Belkacem S, Chikhi A, Benaggoune S. Direct torque control of dual star induction motor using a fuzzy-PSO hybrid approach. Applied Computing and InformaticsApplied Computing and Informatics. 2018.Abstract
This paper presents the particle swarm optimization (PSO) algorithm in conjuction with the fuzzy logic method in order to achieve an optimized tuning of a proportional integral derivative controller (PID) in the DTC control loops of dual star induction motor (DSIM). The fuzzy controller is insensitive to parametric variations, however, with the PSO-based optimization approach we obtain a judicious choice of the gains to make the system more robust. According to Matlab simulation, the results demonstrate that the hybrid DTC of DSIM improves the speed loop response, ensures the system stability, reduces the steady state error and enhances the rising time. Moreover, with this controller, the disturbances do not affect the motor performances.
Boukhalfa G, Belkacem S, Chikhi A, Benaggoune S. Direct torque control of dual star induction motor using a fuzzy-PSO hybrid approach. Applied Computing and InformaticsApplied Computing and Informatics. 2018.Abstract
This paper presents the particle swarm optimization (PSO) algorithm in conjuction with the fuzzy logic method in order to achieve an optimized tuning of a proportional integral derivative controller (PID) in the DTC control loops of dual star induction motor (DSIM). The fuzzy controller is insensitive to parametric variations, however, with the PSO-based optimization approach we obtain a judicious choice of the gains to make the system more robust. According to Matlab simulation, the results demonstrate that the hybrid DTC of DSIM improves the speed loop response, ensures the system stability, reduces the steady state error and enhances the rising time. Moreover, with this controller, the disturbances do not affect the motor performances.
Boukhalfa G, Belkacem S, Chikhi A, Benaggoune S. Direct torque control of dual star induction motor using a fuzzy-PSO hybrid approach. Applied Computing and InformaticsApplied Computing and Informatics. 2018.Abstract
This paper presents the particle swarm optimization (PSO) algorithm in conjuction with the fuzzy logic method in order to achieve an optimized tuning of a proportional integral derivative controller (PID) in the DTC control loops of dual star induction motor (DSIM). The fuzzy controller is insensitive to parametric variations, however, with the PSO-based optimization approach we obtain a judicious choice of the gains to make the system more robust. According to Matlab simulation, the results demonstrate that the hybrid DTC of DSIM improves the speed loop response, ensures the system stability, reduces the steady state error and enhances the rising time. Moreover, with this controller, the disturbances do not affect the motor performances.
Boukhalfa G, Belkacem S, Chikhi A, Benaggoune S. Direct torque control of dual star induction motor using a fuzzy-PSO hybrid approach. Applied Computing and InformaticsApplied Computing and Informatics. 2018.Abstract
This paper presents the particle swarm optimization (PSO) algorithm in conjuction with the fuzzy logic method in order to achieve an optimized tuning of a proportional integral derivative controller (PID) in the DTC control loops of dual star induction motor (DSIM). The fuzzy controller is insensitive to parametric variations, however, with the PSO-based optimization approach we obtain a judicious choice of the gains to make the system more robust. According to Matlab simulation, the results demonstrate that the hybrid DTC of DSIM improves the speed loop response, ensures the system stability, reduces the steady state error and enhances the rising time. Moreover, with this controller, the disturbances do not affect the motor performances.
LAGGOUN L, Youb L, Belkacem S, Benaggoune S, CRACIUNESCU A. Direct torque control using second order sliding mode of a double star permanent magnet synchronous machine. U.P.B. Sci. Bull, Series CU.P.B. Sci. Bull, Series C. 2018;79.
LAGGOUN L, Youb L, Belkacem S, Benaggoune S, CRACIUNESCU A. Direct torque control using second order sliding mode of a double star permanent magnet synchronous machine. U.P.B. Sci. Bull, Series CU.P.B. Sci. Bull, Series C. 2018;79.
LAGGOUN L, Youb L, Belkacem S, Benaggoune S, CRACIUNESCU A. Direct torque control using second order sliding mode of a double star permanent magnet synchronous machine. U.P.B. Sci. Bull, Series CU.P.B. Sci. Bull, Series C. 2018;79.
LAGGOUN L, Youb L, Belkacem S, Benaggoune S, CRACIUNESCU A. Direct torque control using second order sliding mode of a double star permanent magnet synchronous machine. U.P.B. Sci. Bull, Series CU.P.B. Sci. Bull, Series C. 2018;79.
LAGGOUN L, Youb L, Belkacem S, Benaggoune S, CRACIUNESCU A. Direct torque control using second order sliding mode of a double star permanent magnet synchronous machine. U.P.B. Sci. Bull, Series CU.P.B. Sci. Bull, Series C. 2018;79.
Aouiche A, Chafaa K, Bouttout F. DISTURBANCE REJECTION IN NONLINEAR SYSTEMS USING NEURO-FUZZY MODEL. Iranian Journal of Fuzzy SystemsIranian Journal of Fuzzy Systems. 2018;15 :47-67.
Aouiche A, Chafaa K, Bouttout F. DISTURBANCE REJECTION IN NONLINEAR SYSTEMS USING NEURO-FUZZY MODEL. Iranian Journal of Fuzzy SystemsIranian Journal of Fuzzy Systems. 2018;15 :47-67.
Aouiche A, Chafaa K, Bouttout F. DISTURBANCE REJECTION IN NONLINEAR SYSTEMS USING NEURO-FUZZY MODEL. Iranian Journal of Fuzzy SystemsIranian Journal of Fuzzy Systems. 2018;15 :47-67.
Walid B, Noureddine S, Ali M. Disturbances Elimination with Fuzzy Sliding Mode Control for Mobile Robot Trajectory Tracking, ISSN / e-ISSN 1336-1376 / 1804-3119. Advances in Electrical and Electronic EngineeringAdvances in Electrical and Electronic Engineering. 2018;Volume 16 :pp 297-310.Abstract
The disturbances are the significant issue for the trajectory tracking of mobile robots. Therefore, an adequate control law is presented in this paper and this one is based on Global Terminal Sliding Mode (GTSM) with fuzzy control. This control law aims to guarantee the avoidance of the kinematic disturbances which are injected in the angular and linear velocities, respectively. Moreover, the dynamic model based on exponential reaching law is presented to avoid the uncertainties. The control law provides the asymptotic stability by taking into account the fuzzy rules and Lyapunov theory. Thus, the chattering phenomenon should be avoided. The simulation works prove the robustness of the proposed control law by considering the disturbances function and the robot can follow the desired trajectories.
Walid B, Noureddine S, Ali M. Disturbances Elimination with Fuzzy Sliding Mode Control for Mobile Robot Trajectory Tracking, ISSN / e-ISSN 1336-1376 / 1804-3119. Advances in Electrical and Electronic EngineeringAdvances in Electrical and Electronic Engineering. 2018;Volume 16 :pp 297-310.Abstract
The disturbances are the significant issue for the trajectory tracking of mobile robots. Therefore, an adequate control law is presented in this paper and this one is based on Global Terminal Sliding Mode (GTSM) with fuzzy control. This control law aims to guarantee the avoidance of the kinematic disturbances which are injected in the angular and linear velocities, respectively. Moreover, the dynamic model based on exponential reaching law is presented to avoid the uncertainties. The control law provides the asymptotic stability by taking into account the fuzzy rules and Lyapunov theory. Thus, the chattering phenomenon should be avoided. The simulation works prove the robustness of the proposed control law by considering the disturbances function and the robot can follow the desired trajectories.

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