Electronic Systems Engineering Program
The electronic systems engineering major qualifies the student to master the concepts and techniques related to electronics, driving electrical machines, all types of control, industrial networks, programming and image processing, and the ability to analyze systems composed of electrical, electronic and mechanical parts, and to design and implement integrated electro-electrical systems.
The program consists of a set of interrelated courses with prerequisite relationships, integrated from the perspective of meeting the intended learning outcomes. The program spans five years and consists of two consecutive phases:
- Foundation Phase
- Specialization Phase
Aims
The Foundation Phase aims to provide students with the following:
- A solid foundation in mathematics and physics that allows them to continue their education and acquire the knowledge and skills targeted in the specialization phase within the framework of preparing them as engineers in the field of electronic systems engineering.
- A set of general techniques and skills that support their qualification as future engineers, with good knowledge of two foreign languages, especially English, which enables them to deal easily with foreign references.
The Specialization Phase aims to qualify engineers who are:
- Proficient in the concepts and techniques related to designing electronic systems, driving electrical machines, controlling their types, and processing images. They have the ability to design and implement integrated electromechanical systems capable of performing multiple tasks, such as unmanned vehicles, smart systems, and portable systems.
- Distinguished by their ability to develop innovative product designs and introduce innovative improvements to work methods. They are also characterized by their ability to understand the work environment with its administrative and economic dimensions and deal with and adapt to it in a way that supports their subsequent career path as leading engineers through effective dealing with this environment.
Intended learning outcomes
The student who successfully completes this program will be able to:
- Understand the principles and how electromechanical and electrical systems work with their various components, enabling him to comprehend the continuous development in related fields.
- Identify the mechanisms of processing signals exchanged between the components of electromechanical and electrical systems from the perspective of their integrated work.
- Understand traditional and advanced modeling and control methods and how to apply them to different systems in real time.
- Identify the basic concepts and methods that will help him understand his work environment with its administrative and economic dimensions.
- Find solutions to complex engineering problems and design and implement appropriate procedures or systems to achieve requirements while taking into account functional and technical conditions.
- Use computers in designing electromechanical and electrical systems and simulating their behavior.
- Use measuring devices related to various physical quantities and conduct measurement operations and statistical processing of their results and express them correctly.