Admission requirements :
Fulfilling the admission requirements according to the Higher Education Regulations, which are as follows:
- Candidates for the Master’s Program in Telecommunications Engineering must meet the requirements General registration for higher degrees at the University of Science and Technology.
- The applicant to register for the study must have a bachelor’s degree with honors in Communications engineering, electronic or computer engineering, software systems engineering, or Similar fields from the University of Science and Technology or its equivalent.
- That the student be a full-time student.
- He should be fluent in English.
Sudan Center (SDG) | Egypt Center (Egyptian pound) | Saudi Center (Dirham) | ||||
Registration fees | Study Fees | Registration fees | Registration fees | Study Fees | Registration fees | |
Sudanese | 520,000 | 1,820,000 | 10,000 | 35,000 | 736 | 2,584 |
For non-Sudanese | 520,000 | 6,500,000 | 10,000 | 125,000 | 736 | 9,204 |
Mission Statement
Supporting higher education in Sudan by providing suitable environment for students to become qualified engineers who can contribute to the field of communications engineering locally and regionally. That is through a diversified and advanced plan in communications engineering. the program is offered in the Faculty of Engineering Complex, University of Science and Technology, The study is by courses only, with 36 credit hours. The program aims to scientifically prepare students, rehabilitate them and provide them with sufficient techniques, theoretically and scientifically. That is designed in the fields of communications engineering،they are to contribute to the development of technical awareness and raise the efficiency of university graduates, to train and qualify them at the master’s level, It is also to prepare them to participate in the implementation of plans for the development and development of the state in communications engineering. Providing students with detailed knowledge and a deep and good understanding of the rapidly developing field of Communications Engineering Providing professional training for students in theoretical and practical fields related to Communications Engineering,
Forming a broad and deep idea about the industrial applications and requirements of Communications and Information Engineering and related administrative issues , develop self-learning skills and objective assessment when Students and their encouragement for self-learning and continuous professional development.
The program qualifies the graduate to work in companies, banks, private and public sector institutions, in the fields of e-commerce, and others.
Study plan:
First Semester:
Contacted hours per week | Credit hours | Course name | Course code | |
practical | theory | |||
— | 3 | 3 |
engineering mathematics
|
TE01 |
3 | 3 | 3 | Introduction to communications engineering and signal analysis
|
TE02 |
3 | 3 | 3 | advanced digital signal processor
|
TE03 |
3 | 3 | 3 | digital communication engineering
|
TE04 |
9 | 12 | 12 | Total |
Second Semester:
Contacted hours per week | Credit hours | Course name | Course code | |
practical | theory | |||
3 | 3 | 3 | Optional course | |
3 | 3 | 3 | Optional course | |
3 | 3 | 3 | Optional course | |
3 | 3 | 3 | Optional course | |
12 | 12 | 12
|
Total |
Third Semester:
Contacted hours per week | Credit hours | Course name | Course code | |
practical | theory | |||
3 | 3 | 3 | Optional course | |
3 | 3 | 3 | Optional course | |
3 | 3 | 3 | Optional course | |
3 | 3 | 3 | project | |
12 | 12 | 12
|
Total |
Program components and total contact hours:
Percentage | Total | Contact Hours | Credit Hours | Field
|
||||
Practical | Theory | |||||||
4.5% | 45 | — | 45 | 3 | Maths | |||
27% | 270 | 135 | 135 | 9 | Compulsory courses in the engineering and processing of communications signals | |||
64% | 630 | 315 | 315 | 21 | Elective courses in Communications and Networks Engineering | |||
4.5% | 45 | 45 | — | 3 | The project | |||
100% | 990 | 540 | 495 | 36 | Total | |||
Compulsory courses:
Subject | Credit hours | Course code | No. |
Engineering Mathematics | 3 | TE01 | 1 |
Introduction to communication systems and signal analysis | 3 | TE02 | 2 |
Advanced digital signal processing | 3 | TE03 | 3 |
Advanced Digital Communications Engineering | 3 | TE04 | 4 |
Elective Courses: (ب)
Subject | Course code | No. |
Real-time computer for communications systems | TE5 | 5 |
Modeling and simulation | TE06 | 6 |
Computer and communications network | TE07 | 7 |
Microwave Circuits principle and design | TE08 | 8 |
Optical Fiber communication | TE09 | 9 |
Wireless communication and Mobile Networks | TE10 | 10 |
|
||
Satellite communications | TE11 | 11 |
Radio Systems Design | TE12 | 12 |
Antenna and RF system | TE13 | 13 |
Computer Architecture | TE14 | 14 |
Adhoc network | TE16 | 15 |
Microwave system engineering | TE16 | 16 |
Data communication Networks | TE17 | 17 |
Information theory and coding | TE18 | 18 |
Routing and Switching | TE19 | 19 |
Switching and Network Traffic Modelling:
|
TE20 | 20 |
IP Networks:
|
TE21 | 21 |
Radio Frequency (RF) Circuit Engineering:
|
TE22 | 22 |
Traffic Theory
|
TE23 | 23 |
Broadband Networks
|
TE24 | 24 |
High Speed Networks
|
TE25 | 25 |
wireless Communication system:
|
TE26 | 26 |
Selected topic | TE27 | 27 |