M. T. Benchouia
University of Biskra
28 Papers
12 Citations
M. T. Benchouia is an academic researcher from University of Biskra. The author has contributed to research in topics: Direct torque control & Computer science. The author has an hindex of 11, co-authored 27 publications.
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Papers
Sliding-mode Control Based Three-phase Shunt Active Power Filter: Simulation and Experimentation
TL;DR: In this article, a simulation and experimental study of a sliding-mode controller of the DC bus voltage of a three-phase shunt active power filter is presented to improve tracking performance characteristics, power quality, and minimized consumption of reactive power.
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Comparative study of conventional DTC and DTC_SVM based control of PMSM motor — Simulation and experimental results
TL;DR: A simulation and a practical implementation for the conventional DTC and the DTC-SVM based control of the PMSM, using a dSPACE-1104 are presented and the system associated with these techniques can effectively decrease flux and torque ripples with better dynamic and steady performance.
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A novel rooted tree optimization apply in the high order sliding mode control using super-twisting algorithm based on DTC scheme for DFIG
TL;DR: To reduce torque and flux ripples, high order sliding mode control based on the super-twisting (HOSMC-ST) approach is proposed and new rooted tree optimization (RTO) algorithm was used in order to improve the performance of this approach.
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Comparative study of ANN DTC and conventional DTC controlled PMSM motor
TL;DR: Simulation and experimental results show the high performances of the ANN-DTC compared to the conventional DTC; in particular the reduction of the ripples in torque and flux.
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A new rooted tree optimization algorithm for indirect power control of wind turbine based on a doubly-fed induction generator
TL;DR: A new control strategy based on the root tree optimization (RTO) is presented in order to reduce the chattering phenomena in active and reactive powers, and to minimize the harmonic currents which appear mostly at the level of the rotor side converter, in a doubly-fed induction generator.
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