M. BELHAMDI Saad

Prof

Directory of teachers

Department

DEPARTEMENT OF: ELECTRICAL ENGINEERING

Research Interests

control induction motor with broken bars fuzzy logic type1&2

Contact Info

University of M'Sila, Algeria

Email : saad.belhamdi@univ-msila.dz

On the Web:

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Recent Publications

2020

PERFORMANCES OF TYPE 2 FUZZY LOGIC CONTROL BASED ON DIRECT TORQUE CONTROL FOR DOUBLE STAR INDUCTION MACHINE

MASDE Fuzzy logic type2
Citation

M. BELHAMDI Saad, (2020), "PERFORMANCES OF TYPE 2 FUZZY LOGIC CONTROL BASED ON DIRECT TORQUE CONTROL FOR DOUBLE STAR INDUCTION MACHINE", [national] Revue roumaine des sciences techniques Série Électrotechnique et Énergétique , http://revue.elth.pub.ro/index.php?action=main&year=2020&issue=1-2

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TP-EPA

hacheur onduleur MLI
Citation

M. BELHAMDI Saad, (2020), "TP-EPA", [national] univ M'sila

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2019

Reliability Comparison Between Standard and High Efficiency Induction Motor Using Vector Control Method

Recently, the induction motor comprises the majority of all motors utilized in machinery, and the operating efficiencies of these machines greatly impact the overall energy consumption in industry. Current motors are produced with higher efficiency ratings than standard motors, but the decision to replace an existing motor focuses on the actual cost savings that depend on several key points such as operating efficiency, percentage of time at given loads. Owing to the importance of induction motors, this work investigates vector control of a high efficiency induction motor (HEM). Most papers related to control concentrate on flux oriented for solving the problem of voltage and power limitations of two-level inverters. A simulation model is implemented to compare the performance of the first and the second motor. The comparison includes speed performance, torque and current. Through which finally we can declared that, they found results are satisfactory
Citation

M. BELHAMDI Saad, salim.chakroun@univ-sila.dz, , (2019), "Reliability Comparison Between Standard and High Efficiency Induction Motor Using Vector Control Method", [national] AMSE , IIETA

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Comparative Analysis between the Rotor Flux Oriented Control and Sliding Mode Control of a Induction Motor With Broken Rotor Bars

The traditional control of induction motor is not enough, because it lacks robustness, especially when the demand for accuracy and other dynamic characteristics of the system are of better performances in nowadays industry. But induction may face some disturbances, such as: electrical and mechanical faults as : broken bars
Many researchers have proposed several techniques for achieving good performance of the induction motors, Sliding mode control is one of the methodologies, that recently have become the main operational mode. The paper will Comparative Analysis between the Field-Oriented Control and Sliding Mode Control applied upon inductions motors under the effect of broken bars rotor, and load torque variation, the simulation is implemented using MATLAB/ SIMULINK, the performance of the system is illustrated through simulation.
Citation

M. BELHAMDI Saad, (2019), "Comparative Analysis between the Rotor Flux Oriented Control and Sliding Mode Control of a Induction Motor With Broken Rotor Bars", [international] The First International Conference on Materials, Environment, Mechanical and Industrial Systems ICMEMIS’19 , djelfa

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TP ELT-2

machine electrique a c.c ,synchrone et asynchrone
Citation

M. BELHAMDI Saad, (2019), "TP ELT-2", [national] univ M'sila , M'sila

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Adaptive structure based on Fuzzy Logic type-2 for controlling the speed of induction motors with broken bars

— The traditional control of induction motor is not enough, because it lacks robustness, especially when the demand for accuracy and other dynamic characteristics of the system are of better performances in nowadays industry. But induction may face some disturbances, such as: electrical and mechanical faults as : broken bars Many researchers have proposed several techniques for achieving good performance of the induction motors, Sliding mode control is one of the methodologies, that recently have become the main operational mode. The paper will Comparative Analysis between the Field-Oriented Control and Sliding Mode Control applied upon inductions motors under the effect of broken bars rotor, and load torque variation, the simulation is implemented using MATLAB/ SIMULINK, the performance of the system is illustrated through simulation.
Citation

M. BELHAMDI Saad, (2019), "Adaptive structure based on Fuzzy Logic type-2 for controlling the speed of induction motors with broken bars", [national] Second International Conference On Electrical Engineering . , djelfa

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"DTC-SVM based on Interval Type-2 Fuzzy Logic Controller of Double Stator Induction Machine fed by Six-Phase Inverter".

The main disadvantage of the classical direct torque control is high torque and flux ripples. This is due to hysteresis comparators suffer from a variable switching frequency and a high torque ripple. Besides, a hybrid
strategy; Direct Torque Control with Space Vector Modulation (DTC -SVM) is established using Interval Type-2 Fuzzy Logic Controller (IT2FLC) for enhancing control performance parameters to reducing torque and flux ripple. In this work, a IT2FLC is applied to the DTC-
SVM of Double Stator Induction Machine (DSIM). Simulation results are shown to present the robustness .
Citation

M. BELHAMDI Saad, (2019), ""DTC-SVM based on Interval Type-2 Fuzzy Logic Controller of Double Stator Induction Machine fed by Six-Phase Inverter".", [national] International Journal of Image, Graphics and Signal Processing (IJIGSP) , .(http://www.mecs-press.org/).

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A Fuzzy Model Feed Forward Predictive Control of the Nonlinear Tubular Solid-Oxide Fuel Cell System

The solid oxide fuel cell (SOFC) is broadly used for distributed and clean power generation. The main problem related to SOFC lies in the difficulties to control the output voltage of the SOFC due to the strong nonlinearity, the rapid changes of the load and the limited fuel flow. The objective of the control of the SOFC system is to maintain the output voltage at a constant level and the fuel utilization rate in a safety interval. In this context, a multiple-input multiple-output (MIMO) discrete-time Takagi-Sugeno (TS) fuzzy dynamic model with feed forward input is used in this paper to describe the dynamic properties of the nonlinear voltage and the fuel utilization rate in a tubular SOFC system. This obtained fuzzy model will be used for the application of constrained fuzzy model predictive control. The simulation results are provided to show the accuracy and the effectiveness of the proposed strategy.
Citation

M. BELHAMDI Saad, Boumehrez Mohamed, , (2019), "A Fuzzy Model Feed Forward Predictive Control of the Nonlinear Tubular Solid-Oxide Fuel Cell System", [national] Advances in modelling and analysis C , IIETA

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2018-12-20

Multi Objective Design of High Efficiency Induction Motor Using an Analytical Method's

In the final decade of the last century, there was enormous intellectual and engineering activity surrounding the recently invented induction motor, especially their efficiency increasing. The interest in improving the efficiency of electric motors stems from the fact that they represent 60 to 70% of the total industrial and commercial load. A knowledge the motors operating efficiency in an industrial plant is necessary, when deciding whether standard motors should be advantageously replaced with more efficient motors. A new approach is presented for analysis and design of closed rotor slot induction motors in this paper. The main idea is illustrated as follows: first based the computed machine parameters and motor geometry optimization will be carried out. Then, to validate the conceived machines, dynamical performance analysis will be achieved by MATLAB environment. Finally using finite element electromagnetic field analysis, the comparison results will be discussed and commented.
Citation

M. BELHAMDI Saad, (2018-12-20), "Multi Objective Design of High Efficiency Induction Motor Using an Analytical Method's", [national] Modelling, Measurement and Control A , IIETA

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2018

Sliding Mode Control for Speed of an Induction Motor with Broken Rotor Bars

The traditional control of induction motor is not enough, because it lacks robustness, especially when the demand for accuracy and other dynamic characteristics of the system are of better performances in nowadays industry. But induction may face some disturbances, such as: electrical and mechanical faults as : broken bars
Many researchers have proposed several techniques for achieving good performance of the induction motors, Sliding mode control is one of the methodologies, that recently have become the main operational mode. The paper will analyse the control of sliding mode applied upon inductions motors under the effect of broken bars rotor, and load torque variation, the simulation is implemented using MATLAB/ SIMULINK, the performance of the system is illustrated through simulation.
Citation

M. BELHAMDI Saad, (2018), "Sliding Mode Control for Speed of an Induction Motor with Broken Rotor Bars", [international] Second Intternational Conference On Electrical Engineering ICEEB 18 , Biskra

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Speed control of induction motor with broken bar using sliding mode control (SMC) based to on type-2fuzzy logic controller (T2FLC)

The traditional control of induction motor is not enough, because it lacks robustness, especially when the demand for accuracy and other dynamic characteristics of the system are of better performance in nowadays industry. One of the most spreader problems of the induction motor that limits the performance of the speed control is the broken rotor bars. For Improving performance of the induction motor of broken rotor bars, sliding mode control based on fuzzy logic type-2 is analyzed within this research paper. Fuzzy logic is one of the methods that relay on artificial intelligence, and which does not require a mathematical model of the system as the traditional control does. Artificial intelligence is the most used one, especially when it comes to non-linear systems as the motor drive one.
Citation

M. BELHAMDI Saad, (2018), "Speed control of induction motor with broken bar using sliding mode control (SMC) based to on type-2fuzzy logic controller (T2FLC)", [national] Advances in Modelling and Analysis C , Advances in Modelling and Analysis C

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Multi objective design of high efficiency induction motor using an analytical method's

In the final decade of the last century, there was enormous intellectual and engineering activity surrounding the recently invented induction motor, especially their efficiency increasing. The interest in improving the efficiency of electric motors stems from the fact that they represent 60 to 70% of the total industrial and commercial load. A knowledge the motors operating efficiency in an industrial plant is necessary, when deciding whether standard motors should be advantageously replaced with more efficient motors. A new approach is presented for analysis and design of closed rotor slot induction motors in this paper. The main idea is illustrated as follows: first based the computed machine parameters
and motor geometry optimization will be carried out. Then, to validate the conceived machines, dynamical performance analysis will be achieved by MATLAB environment.
Finally using finite element electromagnetic field analysis, the comparison results will be discussed and commented.
Citation

M. BELHAMDI Saad, (2018), "Multi objective design of high efficiency induction motor using an analytical method's", [national] AMSE , iieta

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"fuzzy sliding mode speed controller design of induction motor drives with broken bars"

— The traditional control of induction motor is
not enough, because it lacks robustness, especially when the
demand for accuracy and other dynamic characteristics of the
system are of better performances in nowadays industry. But
induction may face some disturbances, such as: electrical and
mechanical faults as : broken bars
Many researchers have proposed several techniques for
achieving good performance of the induction motors, Sliding
mode control is one of the methodologies, that recently have
become the main operational mode. The paper will analyse the
control of sliding mode applied upon inductions motors under
the effect of broken bars rotor, and load torque variation, the
simulation is implemented using MATLAB/ SIMULINK, the
performance of the system is illustrated through simulation.
Citation

M. BELHAMDI Saad, (2018), ""fuzzy sliding mode speed controller design of induction motor drives with broken bars"", [national] ICEEB , biskra

Read Full Paper

Multi objective design of high efficiency induction motor using an analytical method's"

In the final decade of the last century, there was enormous intellectual and engineering activity surrounding the recently invented induction motor, especially their efficiency increasing. The interest in improving the efficiency of electric motors stems from the fact that they represent 60 to 70% of the total industrial and commercial load. A knowledge the motors operating efficiency in an industrial plant is necessary, when deciding whether standard motors should be advantageously replaced with more efficient motors. A new approach is presented for analysis and design of closed rotor slot induction motors in this paper. The main idea is illustrated as follows: first based the computed machine parameters and motor geometry optimization will be carried out. Then, to validate the conceived machines, dynamical performance analysis will be achieved by MATLAB environment. Finally using finite element electromagnetic field analysis, the comparison results will be discussed and commented.
Citation

M. BELHAMDI Saad, (2018), "Multi objective design of high efficiency induction motor using an analytical method's"", [national] Modeling, Measurement and Control , " http://iieta.org/Journals/MMC/MMC_A

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Direct Torque Control o Doubly Star Induction Motor Using Fuzzy Logic Speed Controller"

the paper an analysis of the Direct Field Control Fuzzy logic type-2 of induction motor drive with broken rotor bars is presented. The simplicity of traditional regulators makes them popular and the most used solution in the nowadays industry. However, they suffer from some limitations and cannot deal with nonlinear dynamics and system parameters variation. In the literature, several strategies of adaptation are developed to alleviate these limitations. Artificial intelligent has found high application in most nonlinear systems same as motors drive. Because it has intelligence like human but there are no sentimental against human like angriness and.... Artificial intelligent is used for various points like approximation, control, and monitoring. Because artificial intelligent techniques can use as controller for any system without requirement to system mathematical model, it has been used in electrical drive control. With this manner, efficiency and reliability of drives increase and volume, weight and cost of them decrease.
Citation

M. BELHAMDI Saad, (2018), "Direct Torque Control o Doubly Star Induction Motor Using Fuzzy Logic Speed Controller"", [national] International Journal of Artificial Intelligence. , International Journal of Artificial Intelligence.

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Speed control of induction motor with broken bars using sliding mode control (SMC) based to on type-2 fuzzy logic controller (T2FLC)"

The traditional control of induction motor is not enough, because it lacks robustness,
especially when the demand for accuracy and other dynamic characteristics of the system are of better performance in nowadays industry. One of the most spreader problems of the induction motor that limits the performance of the speed control is the broken rotor bars. For Improving performance of the induction motor of broken rotor bars, sliding mode control based on fuzzy logic type-2 is analyzed within this research paper. Fuzzy logic is one of the methods that relay on artificial intelligence, and which does not require a
mathematical model of the system as the traditional control does. Artificial intelligence is the most used one, especially when it comes to non-linear systems as the motor drive one.
Citation

M. BELHAMDI Saad, (2018), "Speed control of induction motor with broken bars using sliding mode control (SMC) based to on type-2 fuzzy logic controller (T2FLC)"", [national] Advances in Modelling and Analysis C , http://iieta.org/Journals/AMA/AMA_C.

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Speed control of doubly star induction motor (DSIM) using direct field oriented control (DFOC) based on fuzzy logic controller (FLC)"

The aim for this paper is a proportional and integral (PI) controller and fuzzy logic (FLC)
controller devoted to improve the performance of Direct field orient control (DFOC)
strategy of doubly star induction motor (DSIM) fed by two inverters. In addition, the paper
describes a model of doubly star induction motor in d-q reference frame theory and its
computer simulation in MATLAB/SIMULINK®, fed by Pulse Width Modulation (PWM)
inverter to be studied. The performance of the Direct Field orientated control with a PI and
FLC is tested under different speed command and load disturbances. And also show a better
robustness beside the parametric variations of the motor.
Citation

M. BELHAMDI Saad, (2018), "Speed control of doubly star induction motor (DSIM) using direct field oriented control (DFOC) based on fuzzy logic controller (FLC)"", [national] Advances in Modelling and Analysis C , http://iieta.org/Journals/AMA/AMA_C.

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2017

fuzzy sliding mode speed controller design of induction motor drives with broken bars"

Because of the low maintenance and robustness induction motors have many applications in the industries. Fuzzy Sliding Mode Controller (FSMC) is designed for the speed loop of the drive. The motor model is designed and membership functions are chosen according to the parameters of the motor model. The simulated design is tested using various tool boxes in MATLAB. The result concludes that the efficiency and reliability of the proposed speed controller is good.
Citation

M. BELHAMDI Saad, (2017), "fuzzy sliding mode speed controller design of induction motor drives with broken bars"", [national] Advances in Modelling and Analysis C , http://iieta.org/Journals/AMA/AMA_C.

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Control of induction motor using fuzzy logic type-2 with broken bar"

Because of the low maintenance and robustness induction motors have many applications in the industries. Fuzzy logic type-2 Controller is designed for the speed loop of the drive. The motor model is designed and membership functions are chosen according to the parameters of the motor model. The simulated design is tested using various tool boxes in MATLAB. The result concludes that the efficiency and reliability of the proposed speed controller is good.
Citation

M. BELHAMDI Saad, (2017), "Control of induction motor using fuzzy logic type-2 with broken bar"", [national] , " LAP LAMBERT Academic Publishing

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2014

Study on Fuzzy Control Type-2 of Induction Machine with broken bars Faults Using Direct Torque Control Approach

induction motor with broken bars DTC
Citation

M. BELHAMDI Saad, (2014), "Study on Fuzzy Control Type-2 of Induction Machine with broken bars Faults Using Direct Torque Control Approach", [national] the Mediterranean Journal of Measurement and Control, , the Mediterranean Journal of Measurement and Control

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2013

Fuzzy logic Control of Asynchronous Machine Presenting Defective Rotor Bars"

fuzzy logic induction motor with broken bars
Citation

M. BELHAMDI Saad, (2013), "Fuzzy logic Control of Asynchronous Machine Presenting Defective Rotor Bars"", [national] Advances in Modelling and Analysis C , http://iieta.org/Journals/AMA/AMA_C.

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2011

Sliding Mode Control of Asynchronous Machine Presenting Defective Rotor Bars"

sliding mode control
Citation

M. BELHAMDI Saad, (2011), "Sliding Mode Control of Asynchronous Machine Presenting Defective Rotor Bars"", [national] Advances in Modelling and Analysis C , http://iieta.org/Journals/AMA/AMA_C.

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2009

Etude de l’effet de la position et du nombre de barres rotoriques défaillantes d'un moteur Asynchrone sur le spectre de son courant statorique

FFT Broken bars.Induction motor
Citation

M. BELHAMDI Saad, (2009), "Etude de l’effet de la position et du nombre de barres rotoriques défaillantes d'un moteur Asynchrone sur le spectre de son courant statorique", [national] Revue technologie , http://www.enset-oran.dz/spip.php?article135

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