Beddiaf Y, Zidani F, CHRIFI-ALAOUI L.
Sensorless Speed Control of Induction Motor Used Differential Flatness Theory. International Conference on Electrical Engineering and Control Applications. 2019 :3-21.
AOUDIA I, BENHARZALLAH S, KAHLOUL L, KAZAR O.
Service composition approaches for internet of things: a review. International Journal of Communication Networks and Distributed SystemsInternational Journal of Communication Networks and Distributed Systems. 2019;23 :194-230.
AOUDIA I, BENHARZALLAH S, KAHLOUL L, KAZAR O.
Service composition approaches for internet of things: a review. International Journal of Communication Networks and Distributed SystemsInternational Journal of Communication Networks and Distributed Systems. 2019;23 :194-230.
AOUDIA I, BENHARZALLAH S, KAHLOUL L, KAZAR O.
Service composition approaches for internet of things: a review. International Journal of Communication Networks and Distributed SystemsInternational Journal of Communication Networks and Distributed Systems. 2019;23 :194-230.
AOUDIA I, BENHARZALLAH S, KAHLOUL L, KAZAR O.
Service composition approaches for internet of things: a review. International Journal of Communication Networks and Distributed SystemsInternational Journal of Communication Networks and Distributed Systems. 2019;23 :194-230.
Ourlis L, Bellala D.
SIMD Implementation of the Aho-Corasick Algorithm Using Intel AVX2. Scalable Computing: Practice and ExperienceScalable Computing: Practice and Experience. 2019;20 :563-576.
Ourlis L, Bellala D.
SIMD Implementation of the Aho-Corasick Algorithm Using Intel AVX2. Scalable Computing: Practice and ExperienceScalable Computing: Practice and Experience. 2019;20 :563-576.
Bahloul NEH, Bashir N, Boudjit S, Boubiche DE.
A Simple Proactive Routing Protocol with Multiple Base Stations Deployment for Unmanned Aerial Vehicular Networks. 2019 Global Information Infrastructure and Networking Symposium (GIIS). 2019 :1-6.
Bahloul NEH, Bashir N, Boudjit S, Boubiche DE.
A Simple Proactive Routing Protocol with Multiple Base Stations Deployment for Unmanned Aerial Vehicular Networks. 2019 Global Information Infrastructure and Networking Symposium (GIIS). 2019 :1-6.
Bahloul NEH, Bashir N, Boudjit S, Boubiche DE.
A Simple Proactive Routing Protocol with Multiple Base Stations Deployment for Unmanned Aerial Vehicular Networks. 2019 Global Information Infrastructure and Networking Symposium (GIIS). 2019 :1-6.
Bahloul NEH, Bashir N, Boudjit S, Boubiche DE.
A Simple Proactive Routing Protocol with Multiple Base Stations Deployment for Unmanned Aerial Vehicular Networks. 2019 Global Information Infrastructure and Networking Symposium (GIIS). 2019 :1-6.
Zouggar EO, Chaouch S, Abdeslam DO, Abdelhamid AL.
Sliding Control with Fuzzy Type-2 Controller of Wind Energy System Based on Doubly Fed Induction Generator. Instrumentation, Mesures, MétrologiesInstrumentation, Mesures, Métrologies. 2019;18.
Zouggar EO, Chaouch S, Abdeslam DO, Abdelhamid AL.
Sliding Control with Fuzzy Type-2 Controller of Wind Energy System Based on Doubly Fed Induction Generator. Instrumentation, Mesures, MétrologiesInstrumentation, Mesures, Métrologies. 2019;18.
Zouggar EO, Chaouch S, Abdeslam DO, Abdelhamid AL.
Sliding Control with Fuzzy Type-2 Controller of Wind Energy System Based on Doubly Fed Induction Generator. Instrumentation, Mesures, MétrologiesInstrumentation, Mesures, Métrologies. 2019;18.
Zouggar EO, Chaouch S, Abdeslam DO, Abdelhamid AL.
Sliding Control with Fuzzy Type-2 Controller of Wind Energy System Based on Doubly Fed Induction Generator. Instrumentation, Mesures, MétrologiesInstrumentation, Mesures, Métrologies. 2019;18.
Moussa O, Abdessemed R, Benaggoune S, Benguesmia H.
Sliding Mode Control of a Grid-Connected Brushless Doubly Fed Induction Generator. European Journal of Electrical EngineeringEuropean Journal of Electrical Engineering. 2019;21 :421-430.
AbstractThis 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, Benguesmia H.
Sliding Mode Control of a Grid-Connected Brushless Doubly Fed Induction Generator. European Journal of Electrical EngineeringEuropean Journal of Electrical Engineering. 2019;21 :421-430.
AbstractThis 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.