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Hicham MEZIANE

DOUAI

En résumé

An innovative and ambitious graduated with experiences in control systems, power converter, mechatronics modeling and simulation, research and development, design and realization of electronic cards, industrial, renewable energy systems, and fault diagnosis of industrial production system using model based techniques. A good communicator and problem solver. Sound knowledge of various cultures and language skills including: English, French and Arabic.

Entreprises

  • LABORATOIRY OF INFORMATIQUE & AUTOMATIQUE (URIA) - ÉCOLE DES MINES DE DOUAI - Ingeneer R&D; MODELING OF SWITCHING SYSTEMS IN FREQUENCY DOMAIN, APPLICATION: POWER CONVERTER.

    2014 - 2015 The objective of this work is to propose an experimental method of modeling of switching dynamic systems in high frequency, especially the power converters. From the measurements of a transfer function of the power converter, an identification algorithm must be applied to construct a valid high frequency experimental model that best fits the real data. The main features of this model are:
     Design and Realization of a test model (Buck converter, PWM control and electronic cards to measure the transfer function) to validate the developed analytical model.
     Measure the transfer functions in the frequency domain based on a small signals technique,
     Identification of the Buck parameters based on measurements of the transfer function,
     Writing scientific papers and project proposals and research reports.
     Participating in international scientific research events (e.g. IFAC Safeprocess_2015).

  • LABORATOIRY OF INFORMATIQUE & AUTOMATION URIA - L’ÉCOLE DES MINES DE DOUAI - Ingeneer in Power converter,

    2014 - 2014 IMPLEMENTATION OF A DIAGNOSTIC ALGORITHM ON A MULTI-CELLS POWER CONVERTER.
    This training is for objective to develop a diagnostic algorithm for multi-cells power converter capable of detecting discrete defects related to the switching cells and parametric defects related to the capacitors. The algorithm has been tested and validated on a 3-cell power converter in simulation using Matlab/Simulink/Stateflow and it is implemented on a real a 3-cell power converter using dSPACE 1103.
     Developing a hybrid model and numeric controller for a tree cells power converter,
     Developing of a hybrid algorithm for detecting and located the defects,
     Installing equipment of laboratory (power converter, dSP 1103, etc)
     Writing scientific papers and research reports (Paper for Safeprocess conference 2015).
     Participating in international scientific research events.

  • Laboratory LAMIH at University of Valenciennes. - Ingeneer in Power converter

    2012 - 2013 Design and construction and control of a multi-cells power converter (DC/DC).
    This project is to carry out an experimental model to validate the actual performance of the control algorithms and observation of a 3-cell power converter for high power supply. The proposed steps are:
     The definition and association of different hardware components (IGBT, IGBT control board, measurement board, floating capacitors, RL load or MCC).
     Synthesis of the control law and an observation algorithm for a multi-cells power converter (SDH).
     Testing of all algorithms on a real test-bed (3-cell power converter and DSP1103).
     Writing scientific research reports,

  • LABORATOIRY COMMANDE & SYSTEMES - ÉCOLE SUPÉRIEURE DES TECHNIQUES AÉRONAUTIQUES ET DE CONSTRUCTION A - Ingeneer in power converter

    2012 - 2012 DESIGN AND CONTROL OF A INTERLEAVED POWER CONVERTER EMBEDDED ON A ELECTRIC HYBRIDVEHICLE.
    The objective of this course is to develop a methodology for multi-physics design by integrating the constraints of control and reliability from the pre-design phase (size, weight, performances, thermal, CEM). This work requires the development of a representative model of the interleaved power converter. In addition, the study is focused on the control dedicated to this type of converter. In order to incorporate the impact of the control on the design in normal operation mode and in the presence of defects.
     Design and modeling the interleaved power converter (tree cells Buck power converter in parallel),
     Developing of a classic and robustness control lows for interleaved power converter (PID, Sliding mode),
     Developing an algorithm of faults tolerant control of interleaved power converter,
     Writing scientific papers and research reports,

Formations

  • University Of Bordeaux/ENSEIRB MATMICA.

    Bordeaux 2013 - 2014 MASTER 2P

    This Master focuses on research and development in the area of complex industrial systems. This course allowed me to acquire technical knowledge on methodological tools of advanced automation including modern methods of analysis, modeling, identification, diagnosis and control moreover, I become much familiar with engineering process and technological means for its implementation.

  • University Of Technology Of Belfort-Montbéliard - UTBM

    Belfort 2011 - 2012 MASTER 2

    The Electric Power major at UTBM is a level of 5 years after the HSDG. It prepares students for scientific and technological research. The course provides knowledge in terms of integration of hybrid energy sources, energy storage components, power conditioning components, innovative electric motors and energy management devices, monitoring and control of transport and stationary systems.

  • University Of Ferhat ABBAS – Sétif, Algérie. (Sétif)

    Sétif 2006 - 2009 Ingeneer

    This course was for objective to form engineers with specialization in electrical control, this coerces allowed me to deepen my knowledge in electrical engineering and automation, including modeling, control and simulation of power systems and power electronics.

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