Publications

2012
D. Khamari, A. Makouf, and S. Drid, “Self scheduled LPV flux observer for induction motor,” International Conference on Industrial Engineering & Manufacturing ICIEM'12. 2012.
M. Behloul, M. S. Nait-Said, and S. Drid, “ A robust sliding mode torque and flux controller of induction motor drives ,” International Conference on Industrial Engineering & Manufacturing ICIEM'12. 2012.
R. Saifi, N. Nait-Said, A. Makouf, and S. Drid, “Direct Torque Control For Induction Motor Drives Using Amplitude And Angle Of The Stator Flux Control,” 4th International Conference On Electrical Engineering. 2012.
H. Benderradji, L. C. Alaoui, S. Drid, and A. Makouf, “Sliding Mode Linearization Control via Second Order Sliding Mode Flux Observer Applied to Induction Motor-Experimental Evaluation,” 7th International Conference on Electrical Engineering. 2012.
A. Fezzani, S. Drid, A. Makouf, and L. C. Alaoui, “Flatness-Based Control of an PMSM Fed via Voltage Source Inverter,” 7th International Conference on Electrical Engineering. 2012.
L. Sahraoui, M. S. Nait-Said, and S. Drid, “Commande par linéarisation entrée/sortie d’une machine asynchrone avec un estimateur de flux rotorique,” 7th International Conference on Electrical Engineering. 2012.
T. Boutabba, S. Drid, and H. Benbouzid, “ Implementation of RST controller for Speed Control of an Indirect Field Oriented Control “IFOC” Induction Machine Drive using Dspace 1103 Software,” 4th International Conference On Electrical Engineering. 2012.
T. Boutabba, H. Benbouzid, and S. Drid, “Discrete-time Power Control of a Variable Speed Wind Turbine Driving an DFIG fed by a three levels inverter,” 7th International Conference on Electrical Engineering. 2012.
M. Zellagui and A. Chaghi, “Modified Setting Distance Relay of 400 kV Transmission Line in Presence STATCOM using IEC 61850 Communication Protocol,” 1st National Conference on Telecommunications (NCT), University of Guelma. 2012.
S. Benaicha, F. Zidani, R. Nait-Said, and M. S. Nait-Said, “Design of an improved fault-tolerant control scheme,” ELECTROMOTION, vol. 9, N 1 – 2, pp. 12-24, 2012.
Z. rouabeh, F. Zidani, and B. Abdelhadi, “An improved search-based algorithm for fuzzy-logic efficiency optimization of induction motor drives,” ELECTROMOTION, vol. 19, N 3-4, pp. 101, 2012.
M. S. Nait-Said, N. Nait-Said, and A. Makouf, “Voltage Complex Feedback Control for Wind Powered Double Fed Induction Generator,” The first international Conference on Renewable Energies and Vehicular Technology REVET 2012, 26 to 28 March 2012, Hammamet Tunisia. . 2012.
S. Hamada, F. Z. Louai, and N. Nait-Said, “Modélisation de l'hystérésis dynamique des tôles soumis à des champs à fréquences moyennes,” 7th International Conference on Electrical Engineering, 8- 10 October 2012 Batna. Algérie . 2012.
S. Damkhi, M. S. Nait-Said, and N. Nait-Said, “Saturated Induction Machine Modelling Based on High Frequency Signal Injection,” International Conference on Renewable Energies and Power Quality (ICREPQ’12). 2012.
S. Damkhi, M. S. Nait-Said, and N. Nait-Said, “Slotting Effects and High Frequency Signal Injection for Induction machine Rotor Speed Estimation,” International Conference and Exposition on Electrical and Power Engineering EPE 2012. 2012.
N. Benbaha, F. Zidani, and M. S. Nait-Said, “Commande Robuste de la Machine Asynchrone,” 7th International Conference on Electrical Engineering. 2012.
Y. Belkacem, S. Drid, and F. Zidani, “Fuzzy Adapted MPPT for Wind EnergyConverter System,” 3th International conference on Sciences and Techniques of Automatic control & computer engineering STA'2012. 2012.
Distance Protection for Electrical Transmission Line: Equipments, Settings Zones and Tele-Protection
M. Zellagui and A. Chaghi, Distance Protection for Electrical Transmission Line: Equipments, Settings Zones and Tele-Protection, LAP Lambert Academic Publishing. Saarbrücken - Allemagne, 2012, pp. 115. Publisher's VersionAbstract
Power System Protection is the art and science of the application of devices that monitor the power line currents and voltages (relays) and generate signals to deenergize faulted sections of the power network by circuit breakers. Goal is to minimize damage to equipment and property that would be caused by system faults, if residues, and maintain the delivery of electrical energy to the consumers. Many types of protective relays are used to protect power system equipments, they are classified according to their operating principles; over current relay senses the extra (more than set) current considered dangerous to a given equipment, differential relays compare in and out currents of a protected equipment, while impedance relays measure the impedance of the protected piece of planet. For a good performance of a relay in a power system it must have the following characteristics; dependability, security, selectivity, sensitivity and speed. Protective relaying is a vital part of any electric power system: unnecessary during normal operation but very important during trouble, faults, and abnormal disturbances.
2011
N.Benbouza, M.Feliachi, and F. Z. Louai, “Application of the Meshless local PETROV-GALERKIN Method in Electromagnetics Using the Penalty Approach ,” 2 ème Colloque National sur l’Inductique : Application de l’Induction Électromagnétique CNI’02. 2011.
M. Zellagui and A. Chaghi, “MHO Distance Relay of Transmission Line High Voltage using Series Compensation in Algerian Networks,” Journal of ACTA ELECTROTEHNICA (Academy of Technical Sciences of Romania, Technical University of Cluj-Napoca), vol. 52, No. 3, pp. 126-133, 2011.

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