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Magister's dissertations achieved |
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01 |
Use of direct control of the stator flow and the Kalman filter for direct control of the torque of an asynchronous motor: Application to fault diagnosis |
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02 |
Optimization of power exchange between an electrical network and other systems |
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03 |
Diagnosis of the asynchronous machine by finite elements |
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04 |
Improving the performance of a photovoltaic pumping system over the sun |
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05 |
Optimal time control of an autonomous vehicle |
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06 |
Active filtering of harmonics in electrical networks. |
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07 |
Control of a Parallel three-phase Active Filter by Different Regulators |
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08 |
Robust torque control of an asynchronous motor with energy optimization |
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09 |
Optimal vector control of an induction machine powered by a matrix converter - comparative study |
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10 |
Modeling of sensors in non-destructive testing by eddy current. |
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11 |
Use of sliding mode observers for direct torque control and vector control of an asynchronous cage machine. |
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12 |
Sliding Mode Control of an Asynchronous Machine taking into account Faults |
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13 |
Optimal control of a hybrid photovoltaic generation system. |
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14 |
Estimated production cost of interconnected electrical networks. |
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15 |
Transient analysis and position control of an electromagnetic levitation system |
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16 |
Study and simulation of a HF signal coupler for electrical energy networks, Application: logic selectivity of protections |
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17 |
Modeling by finit volumes of a non destructive control problem of complex shape |
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18 |
Contribution to the modeling by the MVF of a current transformer. |
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19 |
Vector control of an asynchronous machine with fault |
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20 |
Two-order sliding mode control of the asynchronous machine |
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21 |
Direct control of the DTC torque of an asynchronous machine with fault |
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22 |
Detection of stator and rotor faults in the asynchronous machine using FFT and wavelet analysis |
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23 |
Optimization of the production cost of interconnected networks. |
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24 |
Simulation of the sliding mode control of a wind chain based on a double-feed asynchronous machine |
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25 |
Study and characterization of printed antennas for Ultra-Wide-Band systems Etude et caractérisation d'antennes imprimées pour systèmes Ultra- Large-Bande |
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26 |
Contribution to the study of the active filter Three-level series |
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27 |
Control of an Active Four-Arm Filter by Advanced Techniques |
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28 |
Predictive DTC control of an Asynchronous motor |
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29 |
Microwave characterization methods for printed antennas |
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30 |
Detection of Static Faults in the Synchronous Permanent Magnet Machine by Advanced Techniques |
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31 |
Modeling of Asynchronous Machines for Diagnosis, Adequate Consideration of the Magnetic Circuit. |
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32 |
Sensorless control of a permanent magnet machine |
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34 |
Vector control of a permanent magnet machine |
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35 |
Study and modeling of a synchronous generator with permanent magnets driven by a vertical axis wind turbine |
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36 |
Economic study of a MV line. |
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37 |
Control of an electrical network. |
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38 |
Optimal control of the load distribution between the units of a power plant |
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39 |
Study of a Vertical axis wind turbine at the bottom of a Synchronous Permanent Magnet Machine: Biskra Waste Center Application. |
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40 |
Study and Simulation of Static Faults of a Synchronous Permanent Magnet Machine |
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41 |
Ordering a Three-Wire Parallel Active Filter |
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42 |
Vector control of the permanent magnet synchronous machine |
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43 |
Determination of the dielectric permittivity from the propagation constant |
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44 |
Computer-aided design (CAD) of the printed antennas. |
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45 |
Calculation by the cavity model of the resonant modes of an antenna with rectangular radiating element |
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PhD thesis achieved
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01 |
Analysis and management of the production of power plants connected to the electricity networks of big sizes |
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02 |
Contribution to the modeling of the Three-Phase induction machine dedicated to faults diagnosis |
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03 |
Comparative study of the Techniques for Diagnosis of the Induction Machine |
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04 |
Ution to the diagnosis of Induction Machine with Model-based approaches |
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05 |
Contribution to the modeling of the induction machine with finite element method dedicated to faults diagnosis |
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06 |
Contribution to the diagnosis of Induction Machine using neural network |
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07 |
Contribution to the diagnosis of the defects in the squirrel cage asynchronous machines with variable |
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08 |
Contribution to the diagnosis of the eccentricity defects in the squirrel cage asynchronous machines with vibration |
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09 |
Contribution to the diagnosis of Induction Machine using fuzzy logic |
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10 |
Control of a Grid-Connected Photovoltaic System via intelligent Methods |
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11 |
Fuzzy-Genetic Optimization of a wind pumping system |
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12 |
Gestion d’énergie Optimale d’un système de génération hybride |
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13 |
Commande Directe de Puissance d’une chaine de Conversion Photovoltaïque, associée à un filtre Parallèle |
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14 |
Control of Grid connected of Photovoltaic and Wind Energy sources |
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15 |
Commande et gestion d’énergie d’un système de dessalement hybride |
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16 |
Performances improvement of an electric vehicle fed by a photovoltaic source |
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17 |
Biometric Recognition by Multimodal Fusion of 2D and 3D Faces |
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18 |
Modeling and control of a wind energy conversion system based on a MADA Modélisation et commande d’un système de conversion d’énergie éolienne à base d’une MADA |
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19 |
improvement of the performance of the direct torque control (DTC) of the asynchronous machine by non-linear techniques |
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20 |
Control and synthesis of non-linear observers dedicated to electrical drives with faults |
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21 |
Study, Modeling and Control of Active Anti-Harmonic Power Filters using Different Control Strategies.. |
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22 |
Study and realization of a parallel active filter using different control strategies |
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23 |
Detection of faults in the asynchronous machine by intelligent techniques |
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24 |
Control and diagnosis of a sensorless induction machine using advanced analysis and processing techniques |
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25 |
Control by sliding mode: Observation and parametric estimation of an induction machine with faults |
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26 |
Creation of a test bench for inverting signals in non-destructive testing Réalisation d’un Banc d’essai pour l’inversion des signaux en contrôle non destructif |
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27 |
Design of a permanent magnet micro actuator for micro pump A application |
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28 |
Modeling, simulation and implementation in the frequency and time domain of a parallel active filter |
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29 |
Fault diagnosis of the Asynchronous machine controlled by different control techniques Diagnostic des défauts de la machine Asynchrone contrôlée par différentes Techniques de commande |
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30 |
Optimal time control of an autonomous vehicle |
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31 |
Contribution to improving the performance of a water desalination system powered by a photovoltaic source |
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32 |
Contribution to the diagnosis of the asynchronous machine by advanced signal processing |
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PhD thesis in progress
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01 |
Sliding mode control of the synchronous permanent magnet machine for fault diagnosis using advanced techniques |
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02 |
Non-linear control of the synchronous permanent magnet machine for the diagnosis of stator faults |
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03 |
Control and diagnosis of the induction machine |
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04 |
Diagnosis of rotor and stator faults of a vector-controlled asynchronous machine |
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05 |
Detection of faults in the induction machine by advanced techniques |
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06 |
Non-linear control of the asynchronous machine for the diagnosis of faults using advanced techniques. |
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07 |
Contribution to the control of a double asynchronous machine powered by MADA. |
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08 |
Étude et conception d’un filtre actif parallèle triphasé à quatre fils en vue de sa commande par des méthodes de l’intelligence artificielle |
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09 |
Direct predictive control of the torque of an asynchronous motor |
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10 |
Direct torque and reactive power control based on three-level inverter. |
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11 |
Study and design of a three-phase four-wire parallel active filter for control by artificial intelligence methods |
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12 |
Stratégie modifiée du contrôle direct de couple d’une machine synchrone à aimants permanents par l’utilisation de la MLI vectorielle (SVM) et des techniques de l’intelligence artificielle. |
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13 |
Contribution to the improvement of DTC command performance by the use of artificial intelligence techniques |
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14 |
Stratégie modifiée du contrôle direct de couple d’une machine synchrone à aimants permanents par l’utilisation de la MLI vectorielle (SVM) et des techniques de l’intelligence artificielle. |
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15 |
Contribution au et au pronostic de la machine asynchrone commandée en vue de minimiser les efforts radiaux |
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16 |
Energy management of a multi-source drive system |
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17 |
Control of a multi-source system dedicated to the electric vehicle |
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18 |
Verification of the relationship between two people by machine learning. |
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19 |
Fault diagnosis of electrolytic capacitors for machine drive applications |
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20 |
Contribution to the control of the double star asynchronous machine. |
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21 |
Estimation of the probability of detection in non-destructive testing by eddy currents |
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22 |
Contribution to the modeling by the MVF of a current transformer |
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23 |
Contribution to the optimization of the flow of power by the methods of improved artificial intelligence. |
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24 |
Optimization of the electricity network in the presence of renewable sources. |
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25 |
Dynamic optimization of a mini intelligent wind turbine PV battery generator set connected to the network. |
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26 |
Optimization and control of a PV pumping system by integrating metaheurstic methods. |
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27 |
Study and realization of a prototype of a photovoltaic pumping installation for irrigation in the field of agriculture |
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28 |
Contribution to improving the performance of a water desalination system powered by a photovoltaic source. |
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29 |
Parametric study of the diagnosis of the asynchronous cage machine |
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30 |
Non-linear, sensorless control of a synchronous permanent magnet machine. |
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31 |
Contribution to the order of a synchronous permanent magnet generator (GSAP): Application as a wind generator |
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Mémoire de magister soutenu |
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Mémoire de Magister en cours |
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01 |
Etude et caractérisation d'antennes imprimées pour systèmes Ultra-Large-Bande», SOLTANE Samia, 2011 |
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02 |
1.Study of the asynchronous machine during the connection and the disconnection (Lemouchi, 2001) 2. Contribution to the modeling of the induction machine with finite element method (Maaraf, in progress). 3. Contribution to the modeling of the induction machine taking into account the magnetic circuit dedicated to faults diagnosis (Khalifa, 05/2012). 4. Model of the Three-Phase asynchronous machine with squirrel cage dedicated to the detection of defects by the modified winding function (Ghoumari , in progress ) 5. Contribution to the diagnosis of the defects in the squirrel cage asynchronous machines with vibration signal ( Rajeh ahmed Rajah). |