C04271v1 Master of Engineering
Award(s): Master of Engineering in (name of Engineering major) (ME)UAC code: 940300 (NoSpecifiedMajor) (Autumn session, Spring session) , 940303 (SoftwareSysEng) (Autumn session, Spring session) , 940306 (Structural) (Autumn session, Spring session) , 940312 (TelecommunicationsEng) (Autumn session, Spring session) , 940315 (Water) (Autumn session, Spring session) , 940318 (ComputerControlEng) (Autumn session, Spring session) , 940321 (EnergyPlanningPolicy) (Autumn session, Spring session) , 940330 (ManufacturingEngManagement) (Autumn session, Spring session) , 940333 (Environmental) (Autumn session, Spring session) , 940351 (Civil) (Autumn session, Spring session) , 940358 (Geotech) (Autumn session, Spring session) , 940364 (Operations) (Autumn session, Spring session) , 940370 (BiomedEng) (Autumn session, Spring session)
CRICOS code: 081087F
Commonwealth supported place?: No
Load credit points: 72
Course EFTSL: 1.5
Location: City campus
Overview
Course intended learning outcomes
Career options
Admission requirements
Credit recognition
Course duration and attendance
Course structure
Course completion requirements
Course program
Articulation with UTS courses
Other information
Overview
This course provides an opportunity at master's level for recently graduated engineers and technical specialists to deepen the knowledge and skills gained in their first degree while expanding their managerial and professional engineering knowledge.
The course is designed to allow students to gain in-depth knowledge and skills in the particular major that they undertook as part of their undergraduate engineering studies. The subjects offered follow an integrated approach to professional practice through compulsory disciplinary and professional engineering subjects, compulsory subjects relevant to the chosen major, an independent engineering graduate project in at least one field of engineering, and a set of electives (any engineering or IT subjects, some with prior approval). Students also have the option of not electing a major.
This course allows students to choose a program of study that deepens the body of knowledge acquired in their first degree as well as expands knowledge boundaries into policy and engineering management areas. It also provides a unique opportunity to deepen their knowledge and gain practical skills by undertaking an independent engineering graduate project in a particular major. Students also have the option of not electing a major.
Course intended learning outcomes
| A.0 | Needs, context and systems - Engineering and IT take place within the larger context of society and the environment, which encompasses social, economic and sustainability needs. |
| A.1 | Identify, interpret and analyse stakeholder needs. |
| A.2 | Establish priorities and goals |
| A.3 | Identify constraints, uncertainties and risk of the system (social, cultural, legislative, environmental, business etc.) |
| A.4 | Apply principles of sustainability to create viable systems |
| A.5 | Apply systems thinking to understand complex system behaviour including interactions between components and with other systems (social, cultural, legislative, environmental, business etc.) |
| B.0 | Problem solving and design - Engineering and IT practice focuses on problem-solving and design where artifacts are conceived, created, used, modified, maintained and retired. |
| B.1 | Identify and apply relevant problem solving methodologies |
| B.2 | Design components, systems and/ or processes to meet required specification |
| B.3 | Synthesise alternative/innovative solutions, concepts and procedures |
| B.4 | Apply decision-making methodologies to evaluate solutions for efficiency, effectiveness and sustainability |
| B.5 | Implement and test solution |
| B.6 | Demonstrate research skills |
| C.0 | Abstraction and modelling - Abstraction, modelling, simulation and visualization inform decision-making, and are underpinned by mathematics, as well as basic and discipline sciences. |
| C.1 | Apply abstraction, mathematics and/or discipline fundamentals to analysis, design and operation |
| C.2 | Develop models using appropriate tools such as computer software, laboratory equipment and other devices |
| C.3 | Evaluate model applicability, accuracy and limitations |
| D.0 | Self-management - Graduates must have capabilities for self-organisation, self-review, personal development and lifelong learning. |
| D.1 | Manage own time and processes effectively by prioritising competing demands to achieve personal goals (Manage self) |
| D.2 | Reflect on personal and professional experiences to engage in independent development beyond formal education for lifelong learning |
| E.0 | Communication and coordination - Engineering and IT practice involves the coordination of a range of disciplinary and interdisciplinary activities to arrive at problem and design solutions. |
| E.1 | Communicate effectively in ways appropriate to the discipline, audience and purpose. |
| E.2 | Work as an effective member or leader of diverse teams within a multi-level, multi-disciplinary and multi-cultural setting |
| E.3 | Identify and apply relevant project management methodologies |
| F.0 | Professional practice within global context - Graduates must possess skills, knowledge and behaviours to operate effectively in culturally-diverse workplaces and a changing global environment. |
| F.1 | Be able to conduct critical self-review and performance evaluation against appropriate criteria as a primary means of tracking personal development needs and achievements |
| F.2 | Appreciate ethical implications of professional practice |
| F.3 | Understand cross-cultural issues (regions or workplaces) |
| F.4 | Be aware of global perspectives (needs, rules/regulations, and specifications) |
Career options
Students who have a basic undergraduate engineering degree are able to enhance their ability and knowledge through master's-level courses in their respective majors, enabling them to gain and hold employment in their respective engineering fields.
Admission requirements
Applicants must have completed a UTS recognised 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.
It is a requirement that the bachelor's degree be in engineering and relevant to the major being applied for, with no more than 25 per cent failed subjects.
The English proficiency requirement for international students or local applicants with international qualifications is: Academic IELTS: 6.5 overall with a writing score of 6.0; or TOEFL: paper based: 550-583 overall with TWE of 4.5, internet based: 79-93 overall with a writing score of 21; or AE5: Pass; or PTE: 58-64; or CAE: 176-184.
Eligibility for admission does not guarantee offer of a place.
International students
Visa requirement: To obtain a student visa to study in Australia, international students must enrol full time and on campus. Australian student visa regulations also require international students studying on student visas to complete the course within the standard full-time duration. Students can extend their courses only in exceptional circumstances.
Credit recognition
Applicants are assessed individually for credit recognition, up to a maximum of 24 credit points, based on relevant tertiary qualification(s). Applicants given maximum credit recognition complete the course in one year (full time) or two years (part time).
Course duration and attendance
This course is offered on a one-year, full-time or two-year, part-time basis for applicants with a UTS recognised bachelor's degree in engineering. For applicants without recognised qualifications, it is offered on a one-and-a-half-year, full-time or three-year, part-time basis.
The course is made up of subjects that provide students with flexibility. Classes are usually held in standard mode (weekly attendance) or block mode (attend classes only two or three times during the session per subject). Some subjects may be available in distance mode.
Course structure
Candidates complete coursework subjects and an independent engineering graduate project, totalling 72 credit points of study. The project component consists of a preparatory subject and a project (in the area of the major) and is typically undertaken after completing one session's worth of coursework.
Some postgraduate program majors may require students to complete a number of prescribed subjects with or without opportunity for electives. Subjects are selected from postgraduate programs offered by the Faculty of Engineering and Information Technology.
A major is granted if subjects worth 42 credit points (including the project component) are completed within a particular postgraduate program major.
Course completion requirements
| STM90883 Professional Engineering stream | 18cp | |
| CBK90967 Major choice (Engineering PG) | 42cp | |
| CBK90743 Electives | 12cp | |
| Total | 72cp |
Course program
A typical program for the Civil Engineering major is provided below.
| List of majors | ||
| MAJ03476 Biomedical Engineering | 42cp | |
| MAJ03477 Civil Engineering | 42cp | |
| MAJ03478 Geotechnical Engineering | 42cp | |
| MAJ03479 Structural Engineering | 42cp | |
| MAJ03480 Energy Planning and Policy | 42cp | |
| MAJ03481 Computer Control Engineering | 42cp | |
| MAJ03482 Environmental Engineering | 42cp | |
| MAJ03484 Manufacturing Engineering and Management | 42cp | |
| MAJ03486 Software Systems Engineering | 42cp | |
| MAJ03488 Telecommunications Engineering | 42cp | |
| MAJ03489 Water Engineering | 42cp | |
| MAJ03485 Operations | 42cp | |
| STM90868 No specified major stream | 42cp | |
| Typical program, Civil Engineering major | ||
| Year 1 | ||
| Autumn session | ||
| 42908 Engineering Project Preparation | 6cp | |
| Select 6 credit points from the following: | 6cp | |
| STM90883 Professional Engineering stream | 18cp | |
| Select 6 credit points from the following: | 6cp | |
| STM90870 Civil Engineering core | 12cp | |
| Select 6 credit points from the following: | 6cp | |
| CBK90970 Civil Engineering choice | 18cp | |
| Spring session | ||
| Select 6 credit points from the following: | 6cp | |
| STM90883 Professional Engineering stream | 18cp | |
| Select 6 credit points from the following: | 6cp | |
| STM90870 Civil Engineering core | 12cp | |
| Select 6 credit points from the following: | 6cp | |
| CBK90970 Civil Engineering choice | 18cp | |
| Select 6 credit points from the following: | 6cp | |
| CBK90743 Electives | 12cp | |
| Year 2 | ||
| Autumn session | ||
| 42003 Engineering Graduate Project | 6cp | |
| Select 6 credit points from the following: | 6cp | |
| STM90883 Professional Engineering stream | 18cp | |
| Select 6 credit points from the following: | 6cp | |
| CBK90970 Civil Engineering choice | 18cp | |
| Select 6 credit points from the following: | 6cp | |
| CBK90743 Electives | 12cp | |
Articulation with UTS courses
This course is part of an articulated program comprising the Graduate Certificate in Engineering (C11236), the Graduate Diploma in Engineering (C06108), the Master of Engineering, the Master of Engineering (Extension) (C04277) and the Master of Engineering (Advanced) (C04278).
Other information
Students enrolled in UTS: Engineering degrees (undergraduate and postgraduate coursework) are advised to direct all their course-related inquiries to:
Building 10 Student Centre
Building 10, level 2, foyer (Jones St entrance)
telephone 1300 ask UTS (1300 275 887) or +61 2 9514 1222
Ask UTS www.ask.uts.edu.au
