Title of the Programme
The programme shall be master of engineering in electronics and telecommunication MEng. (ET)
Background
Most careers in the electronics engineering field feature a growth rate as fast as the average for the Burkina. with electronic engineering positions. In an electronics and Telecommunication engineering program, students will hone in on their engineering skills and decide which discipline of electronics they would like to focus their work in. Ideally, students in the major should have an engineering background from any discipline, but be willing to learn the unique facets of the electronics engineering area. Students can explore opportunities to connect with their classmates and instructors to build lasting relationships. Post-graduate career opportunities could arise from the connections students make during their graduate program. Additionally, they can continue to build upon their networking skills in professional organizations once they graduate, allowing them to learn of new opportunities.
Justification
Electronic engineers possess highly sought-after skills and the knowledge needed to deliver innovative solutions. They design and construct products and services we use each and every day—from smart devices to medical imagery, information systems to security and defence technologies.
The targeted group includes holders of:
Applicants must have completed a UTS recognized bachelor’s degree, or an equivalent or higher qualification, or submitted other evidence of general and professional qualifications that demonstrates potential to pursue graduate studies.Bachelor’s in Engineering and other related Science and Technology fields.It is a requirement that the bachelor’s degree be in engineering or the natural and physical sciences, with no more than 25 per cent of subjects failed. Electronics engineering covers a broad range of electronics-based topics, including biomedical engineering and broadcasting and sound. Depending on their specific niche, professionals in the field can work almost anywhere and in a variety of departments. Professionals all need to have strong analytical skills and be experienced with identifying and solving complex problems within an organization. They will often need to perform detailed calculations in their roles and will be asked to train other employees.
General Objectives
As part of this course you will study courses that go beyond the theory of recent engineering developments.
Areas of study include:
- electronic circuit design
- integrated circuit design and fabrication
- embedded electronics
- electronics control systems
- computer systems electronics
- microelectromechanical systems (MEMS)
- micro/nanoscale device design and fabrication
- sensors and actuators
Specific Objectives
Our Master of Engineering (Electronic and Telecommunication) comprises a foundation year and an advanced studies year. You will:
- study the principles of control and communication systems
- build communication and project management skills
- gain advanced understandings in mathematics and systems engineering
- pursue specialist topics—from telecommunications and microelectronics to image sensors and processing
- undertake a significant research project
Duration of the Programme:
This course is offered on a Two-year (Four semesters), full-time or online basis for students with a UTS-recognized bachelor’s degree in engineering or the natural and physical sciences.
Courses codes | Courses Names | Credit Units |
| Year one |
|
| Semester one |
|
RM M01 | Advanced research methods | 3 |
OB M03 | Organization Behavior | 3 |
CS M02 | Communication Skills | 3 |
ESD M04 | Entrepreneurship and Development | 3 |
MBEC 2632 | Business Ethics and Corporate Governance | 3 |
MSM 9450 | Strategic Management | 3 |
MAE 421 | Academic Essay | 3 |
MEET100 | Broadband Multimedia Networks | 3 |
MEET111 | Circuit Analysis | 3 |
|
|
|
| Semester Two |
|
MEET120 | Communications & Computer Networks | 3 |
MEET121 | Image Processing | 3 |
MEET122 | Integrated Circuit Testing | 3 |
MEET123 | Nano electronic Devices | 3 |
MEET124 | Network Modeling & Performance | 3 |
MEET125 | Optical Communications | 3 |
MEET126 | Random Process | 3 |
MEET127 | Advanced Communication Electronics | 3 |
MEET128 | Advanced Digital Communication | 3 |
MEET129 | Advanced Digital signal process | 3 |
|
| 60 |
| Year Two |
|
| Semester One |
|
MEET 416 | Advanced Digital Systems | 7 |
MEET 417 | Advanced Microprocessor Systems | 8 |
MEET 418 | Construction Contract Management and Law | 7 |
MEET220 | Wireless Communication Systems | 8 |
|
| 60 |
| Semester Two |
|
MEET 429 | Internship | 10 |
MEET 430 | Thesis | 20 |
|
|
|
|
| 60 |
GCU |
| 120 |