Bachelor of Engineering (Telecommunications)
Faculty of Engineering and Built Environment
CRICOS code
032766M
Available to new international students
Yes
Available to new students
Yes
Award Abbreviation
BE
Locations
Newcastle (Callaghan), Singapore (PSB)
Program code
11217
Summary
The Bachelor of Engineering offers specialisations in: Chemical, Civil, Computer, Electrical, Environmental, Mechanical, Mechatronics, Software and Telecommunications Engineering. Students select their specialisation at the commencement of Year 1. Transfer between specialisations is possible under certain conditions.
The following information relates to the Telecommunications Engineering specialisation:
Telecommunications engineering specialisation focuses on communication technologies used to transmit, receive, store and process different types of electronic information signals using electronic and electrical, radio, optical and embedded systems. Telecommunications engineers are becoming pivotal in modern societies that are dependent on the Information and Communications Technologies (ICT) for versatile and efficient solutions to rapidly changing lifestyle.
Engineers specialising in the field of telecommunications design, implement and manage hardware, software and systems for processing and transmitting different types of information. Using their knowledge of electronics, computer hardware and software, signal processing and networking techniques, telecommunications engineers are involved in a range of voice, data and multimedia communication activities. For example, design of a cellular mobile telephone network requires knowledge of high frequency electronics, radio signal propagation, signal processing and networking techniques in order to make a mobile telephone system fully operational.Career opportunities
Telecommunications engineering graduates have excellent employment prospects and may be employed in the following areas. The list is not a comprehensive one.
Computer Networking/Internet
In this field, telecommunications engineers will mainly be involved in the design, management and operation of small to large networks to transmit and process various types of information between different sites. Examples of such networks are banks, corporate offices, emergency services, councils, etc.
Mobile/Wireless Communications
This is the fastest growth area of ICT where the roles of telecommunications engineers are vital. People are increasingly relying on wireless systems for their personal communication. In recent years deployment of wireless internet systems are also rapidly increasing. Specialised knowledge of telecommunications engineers will be required to design and develop future wireless and mobile networks.
Telecommunications Services
National and international telecommunications service providers such as Telstra, Optus, etc. have core telecommunications systems that are managed by specialised engineers. More specialised engineers will be needed to design advanced networks to support many emerging services. Introduction of emerging technologies such as Voice over IP (VoIP), IPTV and mobile TV will need a new generation of telecommunications engineers.
Broadcasting
The role of broadcasting organisations is changing rapidly with the introduction of digital technologies. Data casting systems for example, demand specialised design knowledge in telecommunications systems.
ICT Systems
Telecommunication graduate will find employment in a range of ICT areas which include computer engineering and systems, many ITC/IT related jobs in government and private sectors, electronic engineering and technical analyst roles.
Entry requirements
Assumed knowledge:
There are no prerequisite courses but it is assumed that students will have studied Mathematics (Band 5) or HSC Mathematics Extension 1 (Band E1 or above) or equivalent. Study of one science-related subject would also be an advantage, Physics is preferred. Applicants who have achieved less than Mathematics Band 5 or have not completed Physics may be admitted to the program but may need additional study and/or assistance to successfully complete the requirements of the program.
UAI Cut-offs: The UAI cutoffs for University programs are provided at www.newcastle.edu.au/study/undergraduateadmissions/uaiscores.html
Additional entry requirements: Nil.
How to apply
Australian Year 12 students:
Apply for entry through UAC.
Entry based on UAI or equivalent.
Non school leavers and previous Australian Year 12 students:
Apply for entry through UAC.
Entry based on:
- previous Year 12 studies and/or Higher education,
- tertiary or post-secondary qualifications and/or
- Overseas qualifications considered equivalent to Australian qualifications.
International Students:
International students currently undertaking:
- an Australian Year 12 in Australia
- an Australian Year 12 outside Australia
- an International Baccalaureat (IB) in Australia
Apply for entry through UAC.
Entry based on UAI or equivalent.
All other international students:
Apply direct to International Admissions.
Entry based on overseas qualifications considered equivalent to Australian qualifications, as well as satisfying English language requirements.
Description
IMPORTANT! You must read the Undergraduate Degree Rules. Click here to view.
Telecommunications engineering is one of the frontier enabling technologies of information and communications technology (ICT) sector which is bringing evolutionary changes in our societies, entertainment areas and human relationships. The importance and spread of this technology is on the rise, encompassing all aspects of human activities. Telecommunications engineers are required to design and develop applications as diverse as mobile phone systems to hi-tech internet based entertainment systems.
Credit Transfer Agreements
Credit transfer agreements with TAFE NSW and other education providers are under continuous negotiation. For more information about articulation arrangements please see the University’s website, at www.newcastle.edu.au/credit/
Program Structure
The telecommunications program is a 4 year program comprising 320 units; in which students complete core courses and electives from a number of areas. Core courses are in the areas of mathematics, physics, electrical engineering, electronics, computer engineering, communication systems and networks, software engineering and wireless systems. Throughout the program, theoretical studies are complemented by practical laboratory and project works. Students will have the opportunity to undertake an industry related project in their final year of study and must also complete 12 weeks of industrial experience throughout the program.
Industrial Experience
Students have the opportunity to undertake an industry-related project in their final year of study and must also complete 12 weeks of industrial experience throughout the program. Further information is available at: www.newcastle.edu.au/faculty-old/engineering/industrial_experience/
Part-time Attendance
Students wishing to undertake the program on a part-time basis are advised to contact the Program Convenor for advice on optimum selection of courses for part-time enrolment.
Transition Arrangements from 2005 program.
The following table displays the approved transition arrangements for students who have Failed or Withdrawn from 2005 courses as specified.
| 2005 Course Code & Title | Course to be completed if FF awarded prior to 2006 |
| Year 1 | |
| ELEC1800 Intro to Eng Practice | GENG1803 Intro to Engineering Practice |
| Year 4 | |
| ELEC3830 Engineering and Project Management | GENG3830 Engineering Management |
| ELEC4890 Telecommunications Engineering Project | ELEC4840 Final Year Engineering Project |
| ELEC4890A Telecommunications Eng Project (Part A) | ELEC4840A Final Year Engineering Project |
| ELEC4890B Telecommunications Eng Project (Part B) | ELEC4840A Final Year Engineering Project - Part A |
| Directed Elective: | |
| SENG3280 Computer Networks | No transition required - remaining electives will suffice |
Approved Courses
The following program of study may be varied as a result of future changes in the program requirements, or course availability.
Note: Not all courses are offered each semester. To establish semester-of-offer status, click on the course code for the course and follow the links to timetabling information.
| Year 1 | ||
|---|---|---|
| ELEC1700 | Computer Engineering 1 | 10 units |
| SENG1110 | Introduction to Software Engineering 1 | 10 units |
| MATH1110 | Mathematics 111 MATH1210 and MATH1220 may be undertaken in lieu of MATH1110 and MATH1120. (The assumed competency for MATH1210 is HSC Extension 1 with a performance in Band 4).
|
10 units |
| PHYS1210 | Advanced Physics 1 | 10 units |
| ELEC1300 | Electrical Engineering 1 | 10 units |
| MATH1120 | Mathematics 112 MATH1210 and MATH1220 may be undertaken in lieu of MATH1110 and MATH1120. (The assumed competency for MATH1210 is HSC Extension 1 with a performance in Band 4).
|
10 units |
| PHYS1220 | Advanced Physics 2 | 10 units |
| GENG1803 | Introduction to Engineering Practice | 10 units |
| Year 2 | ||
| ELEC2200 | Introduction to Electronics | 10 units |
| ELEC2320 | Electrical Circuits | 10 units |
| MATH2310 | Calculus of Science and Engineering | 10 units |
| ELEC2400 | Signals and Systems | 10 units |
| ELEC2500 | Introduction to Telecommunications | 10 units |
| ELEC2700 | Computer Engineering 2 | 10 units |
| MATH2420 | Engineering Mathematics 2 | 10 units |
| ELECTIVE | General Elective | 10 units |
| Year 3 | ||
| ELEC3400 | Signal Processing | 10 units |
| ELEC3500 | Telecommunications Networks | 10 units |
| ELEC3530 | Digital Communications | 10 units |
| ELEC3850 | Introduction to Electrical Engineering Design | 10 units |
| PHYS3500 | Advanced Electromagnetism for Scientists and Engineers | 10 units |
| SENG1120 | Introduction to Software Engineering 2 | 10 units |
| DIRECTED ELECTIVE | Group A Directed Elective | 20 units |
| Year 4 | ||
| PHIL3910 | Technology and Human Values | 10 units |
| GENG3830 | Engineering Project Management | 10 units |
| ELEC4560 | Wireless Systems and Advanced Communications | 10 units |
| DIRECTED ELECTIVE | Group A or Group B Directed Elective | 10 units |
| ELECTIVE | General Elective | 10 units |
| Plus either: | ||
| ELEC4840 | Final Year Engineering Project Program Convenor approval required for enrolment
|
30 units |
| or | ||
| ELEC4840A | Final Year Engineering Project - Part A | 10 units |
| and | ||
| ELEC4840B | Final Year Engineering Project - Part B | 20 units |
| Group A Directed Electives | ||
| Students need to choose a minimum of TWO courses from the following: | ||
| ELEC3720 | Programmable Logic Design | 10 units |
| ELEC3250 | Power Electronics | 10 units |
| ELEC3730 | Embedded Systems | 10 units |
| ELEC3240 | Electronics | 10 units |
| Group B Directed Electives: | ||
| ELEC4210 | Electronics Design | 10 units |
| ELEC4400 | Automatic Control | 10 units |
| PHYS3320 | Optical Communication | 10 units |
| COMP3260 | Data Security | 10 units |
| ELEC4700 | Advanced Computer Systems | 10 units |
Schedule
The relevant program schedule (B Engineering) is available within the Degree Rules and Schedules section of the Policy Library.
