Programme Type:

Course Overview

The major engineering courses of the Bachelor’s programme contain, apart from theory and fundamental principles, elements of analysis and design, as well as significant laboratory work.

Objectives

The graduate of this programme should:

  1. Have a fundamental understanding of a broad spectrum of topics in Electrical Engineering;
  2. Have advanced knowledge and in-depth understanding of at least one of the specialization areas of Electrical Engineering;
  3. Have a firm grasp of the basic knowledge of mathematics, physics, and possibly chemistry as a foundation for further post-graduate studies;
  4. Be able to communicate technical ideas effectively through both oral presentations and written reports;
  5. Have developed independent thinking and problem-solving skills to tackle real-world Electrical Engineering problems;
  6. Have extensive hands-on laboratory experience in designing hardware and software solutions to challenging real-world problems in Electrical Engineering;
  7. Have acquired an interdisciplinary fundamental knowledge for a more fulfilling and rewarding career;
  8. Have adequate software programming skills that are needed in the process of analysis and design of electrical engineering problem solutions;
  9. Be a well-rounded individual that is knowledgeable of fields outside of science and engineering including business, and liberal arts;
  10.  Be well prepared for either an entry-level job in Electrical Engineering or further studies toward an advanced post-graduate Masters and/or Doctorate degree.

 Learning Outcomes

Upon the completion of this programme, the student will have the following:

  1. Solid foundation in fundamental areas of mathematics such as differential and integral calculus, linear algebra and differential equations, science including physics and engineering; knowledge of probability and statistics applicable to electrical engineering. Ability to apply this knowledge to solve engineering problems;
  2. The breadth of knowledge in basic areas of Electrical Engineering including electric circuits, digital and analog electronics, numerical methods, signals and systems, digital signal processing, microprocessors, electromagnetics, electric machines, digital integrated circuits, digital signal processing, control systems, and principles of communications;
  3. In-depth knowledge and technical expertise in at least one of the specialized fields of communications and signal processing, microwaves, antennas and optics, and power and automation systems;
  4. The broad education necessary to understand the impact of engineering solutions in a global, economic, environmental, and societal context;
  5. Ability to identify, formulate and solve engineering problems using techniques, skills, creative thinking, and modern engineering tools necessary for engineering practice.

Entry Requirement 

Graduation Requirements:

The student must complete 240 ECTS and all programme requirements. A minimum cumulative grade point average (CPA) of 2.0 is required. Thus, although a ‘D-‘ is a PASS grade, in order to achieve a CPA of 2.0 an average grade of ‘C’ is required.

Fees

Yearly Tuition (for 60 ECTS): € 9420


This information was accurate on : 21/01/2021
Please contact us for more information about this courses

Similar Courses