Telecommunication Engineering Program | Higher Institute for Applied Sciences and Technology

Telecommunication Engineering Program

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:

  1. A solid foundation in mathematics and physics enabling them to continue their studies and acquire the knowledge and skills targeted in the specialization stage, as part of their preparation as engineers in the field of Telecommunication engineering.
  2. A set of general techniques and skills that support their qualification as future engineers, with a good knowledge of two foreign languages, especially English, enabling them to easily interact with foreign references.

 

The Specialization Phase aims to qualify engineers who are:

  1. Capable of analyzing and designing fixed and mobile radio, optical, and wired communications systems and networks, in addition to signal processing of audio, video, digital, and radar communications signals
  2. Distinguished by their ability to create innovative designs for products and introduce novel improvements to work methods, supported by complementary knowledge and skills that help them understand their work environment in its managerial and economic aspects, thereby supporting their subsequent professional carreer as leading engineers through effective interaction with this environment.

Intended learning outcomes

On successful completion of this course, the student will be able to:

  • Demonstrate a deep understanding of the the principles and operation of communications systems in their various hardware and software aspects, enabling him to understand the continuous development in these fields.
  • Understand the engineering principles for modeling, analyzing, designing and building analogue and digital communications systems, and how to employ these principles to meet the required needs within realistic constraints (economic, environmental, health and safety, manufacturing, sustainability, etc.).
  • Understand signal processing concepts of signal processing for audio, video, analog and digital communication signals, as well as traditional and modern radar signals that can utilize artificial intelligence and its techniques.
  • Recognize the theoretical foundations for designing and building communications networks of all types, fixed and mobile, and maintaining their security and safety.
  • Recognize the basic concepts and methods that help them understand his work environment in its managerial and economic aspects
  • Design and build analog and digital communication systems.
  • Apply signal processing techniques for encoding, recognition, tracking and for computerized integration purposes.
  • Apply artificial intelligence techniques to find solutions in the fields of receivers, transmitters, signal processing, antennas, … .
  • Design and build communication networks of all types, fixed and mobile, while maintaining their security and safety.

Curriculum (Last update: September 2024):

- First academic year (First year in the Foundation Phase)

- Second academic year (Second year in the Foundation Phase)

- Third academic year (First year in the Specialization Phase)

- Fourth academic year (Second year in the Specialization Phase)

- Fifth academic year (Third year in the Specialization Phase)