Associate Professor in Electrical Engineering
Jeddah College of Technology - KSA
Total years of experience :18 years, 9 Months
I have taught many different courses at both undergraduate and graduate levels (Diploma, Bachelor's and Master’s):
• Programmable Control Technology
• Special Machines
• Process Control/ SCADA
• Intelligent Control Systems
• Embedded Sensors and Actuators
• Architecture of Microcomputers
• Mechatronics
• Fuzzy Logic
• Neural Networks
• System for Acquisition/LabVIEW
• Numerical process control
• Discrete Feedback Systems
I have worked with both academic and industry experts, as well as study directors to develop curricula that meet the needs of students. I have provided the Academic Duties:
• Member of College Programme Assessment and Accreditation committee for ABET accreditation
• Supervising students for Final Year Projects and Cooperative work Training
• Contributing in Research work
• Supervising MSc projects
• Worked effectively in professional environment and gained valuable teaching skills I have done many administrative duties: •Departmental Research Officer
•Department Supervisor of CO-OP training Programme
•Course Coordinator (Automatic Control systems)
•Member of College Cooperative Work (COOP) committee
•Member of College Internal Audit and Evaluation committee
I have taught many different courses at both undergraduate and graduate levels (Diploma and Bachelor's ) : • Power System Control and Stability
• Power System Protection
• Renewable Energy
• Electrical Machines AC/DC
• Electrical Distribution Technology
• Electrical Transmission Networks
• Power Plants and substations
• Automatic Control Technology
• Electric Drives
• Electrical Programmable Control
• Electronic Circuits
• Power Electronics
• Industrial Electronics
• Programmable Control Technology
• Special Machines
• Process Control/ SCADA
I have provided undergraduate students with a strong background in core courses such as Circuits & Electronics, Automatic control, power system control and stability and offered advanced research-oriented graduate/elective courses in, switching systems and Renawble Energy. I provided a lot of training courses for students as well as for teachers: -Solar Energy Systems Design - Installing solar energy systems - Hybrid Renewable Energy Systems - Energy skills - Digital transformation and the technical future - Artificial intelligence applications in production and manufacturing - Creative skills in raising productive efficiency - Ability to train in the field of earthing of the distribution system I have provided the Academic Duties:
• Member of College Programme Assessment and Accreditation committee for ABET accreditation
• Supervising students for Final Year Projects and Cooperative work Training
• Contributing in Research work
• Supervising MSc projects
• Worked effectively in professional environment and gained valuable teaching skills I have done many administrative duties: • Specialty Supervisor (Electrical Engineering) at FST-KSA
• Member of the scientific council at the FST-KSA
• Coordinator of the scientific committee at the FST-KSA
• Member of the technical club at the FST-KSA
• Provide training for teachers and students at the FST-KSA
I have taught many different courses at both undergraduate and graduate levels (Diploma and Master’s ) : • Automatic Control Technology
• Programmable Control Technology
• Intelligent Control Systems
• Embedded Sensors and Actuators
• Architecture of Microcomputers
• Fuzzy Logic
• Neural Networks
• System for Acquisition/LabVIEW
• Numerical process control
• Discrete Feedback Systems
I have provided undergraduate students with a strong background in core courses such as Circuits & Electronics, Automatic control, power system control and stability and offered advanced research-oriented graduate/elective courses in Fuzzy logic, neural networks, switching systems, Intelligent Control Systems and Embedded Sensors and Actuators. I have provided the Academic Duties:
• Supervising students for Final Year Projects and Cooperative work Training
• Contributing in Research work
• Supervising MSc projects
• Worked effectively in professional environment and gained valuable teaching skills I have done many administrative duties:
• Member of the admission committee based on files from the Master in Embedded system
• Coordinator of the UE32 Teaching Unit
• Member of the scientific council at ISIMG
• Responsible for company visits for the benefit of LASCMI students
• Member of the PAQ-ISIMG Project (2012-2013)
• Coordinator of Applied Licence in Communication System Multimedia Industrial at the University of Tunisia
• Member in program elaboration of new technological sections at the University of Tunisia
I have taught many different courses at both undergraduate and graduate levels (Diploma and Bachelor's) :
• Programmable Control Technology
• Process Control/ SCADA
• Intelligent Control Systems
• Embedded Sensors and Actuators
• Architecture of Microcomputers
• System for Acquisition/LabVIEW
• Numerical process control
• Discrete Feedback Systems
I worked to Design electrical systems for commercial, residential, and industrial construction projects and Determine how to effectively incorporate electrical elements, determining specifications and preparing blueprints.
The research work presented in this thesis focuses on the development of polynomial control structures. These structures are based on the formalism of the dynamic feedback linearization and the theory of systems stability. The objective is to perform the output trajectory tracking by ensuring the stability of the transition during the implementation of advanced and analytical nonlinear techniques of Gain Scheduling. The proposed methodologies exploit largely, the theory of asymptotic stability regions. Such regions are maximized using the Reverse Trajectory Method, which allows the reduction of the operating points performed on a desired trajectory. The fuzzy logic formalism was implemented to overcome control saturation problems when achieving the task of determining the intermediate operating points imposed by topological considerations. The effectiveness of the developed control strategies is studied on a benchmark of chemical process: the CSTR. The main considered objective is the trajectory tracking of the reaction temperature
The aim of the work presented in this memory is the development of a new technique allowing us to bring a remedy to the zero dynamics stability problem which characterizes the nonlinear control approach by dynamical feedback and diffeomorphism. A six step algorithm is formulated in order to present the methodology of the stabilizing control. An organization chart expressing the aim of the developed approach is also synthesized. The validation of the approach has been led on a CSTR model to allow the tracking of a desired trajectory of reaction temperature.