Master of Engineering (Professional)

2021 Deakin University Handbook

Note: You are seeing the 2021 view of this course information. These details may no longer be current. [Go to the current version]

Year	2021 course information
Award granted	Master of Engineering (Professional)
Course Map	These course maps are for new students commencing from Trimester 1 2021: Non-specialisation specific Additive Manufacturing Specialisation Civil Engineering Specialisation Electrical and Renewable Energy Engineering Specialisation Engineering Management Specialisation Mechanical Engineering Design Specialisation Mechatronics and Control Engineering Specialisation These course maps are for new students commencing from Trimester 2 2021: Non-specialisation specific Additive Manufacturing Specialisation Civil Engineering Specialisation Electrical and Renewable Energy Engineering Specialisation Engineering Management Specialisation Mechanical Engineering Design Specialisation Mechatronics and Control Engineering Specialisation Course maps for commencement in previous years are available on the Course Maps webpage or please contact a Student Adviser in Student Central.
Campus
Cloud Campus	No
Duration	2 years full-time or part-time equivalent
CRICOS course code	052600A Waurn Ponds (Geelong)
Deakin course code	S751
Approval status	This course is approved by the University under the Higher Education Standards Framework.
Australian Qualifications Framework (AQF) recognition	The award conferred upon completion is recognised in the Australian Qualifications Framework at Level 9.

Course sub-headings

Course overview

Study the Master of Engineering (Professional) and you’ll develop research, technical and professional skills, a positive approach to problem solving and the ability to design and implement engineering projects as part of a team.

This course is designed to extend your research, technical engineering and professional skills gained from a 4-year undergraduate degree.

Throughout the degree you will acquire advanced engineering skills and the forward-thinking and entrepreneurial skills employers are looking for, while strengthening and extending your understanding of engineering through the pursuit of specialised study.

The course focuses on practical hands-on learning, research skill and professional practice skill development. It allows you to embark on industry or research-based projects to strengthen the application of engineering knowledge whilst extending your understanding and perspectives through specialist study options.

You will also have the option to combine course-grouped electives and gain a second specialisation. Choose from areas such as engineering management and learn how to influence business decisions.

Want to advance your career through specialised study?

As an engineer with professional practice skills, you will develop the capacity to operate in dynamic, unstructured and diverse environments. You will also develop the ability to deal with a variety of organisational, technical and behavioural interactions, and cope with rapid changes in technologies, markets, regulations and socioeconomic factors. This gives you a set of skills that will set you apart in the industry.

You will have world-class facilities and equipment at your fingertips with access to Deakin’s state-of-the-art engineering precinct and the Geelong Technology Precinct (GTP) – home to the Institute for Frontier Materials (IFM), Institute for Intelligent Systems Research and Innovation (IISRI), CSIRO Materials Science and Engineering and the Australian Future Fibre Research and Innovation Centre.

Deakin’s Master of Engineering (Professional) partners with industry to provide you with practical work experience opportunities, the capacity to apply your skills to real-world problems and the opportunity to form professional networks prior to graduation.

Engineering offers an exciting future for your working life, with a huge demand for engineering graduates in Australia and internationally. Skilled engineers are needed across all sectors, with employers looking for graduates who are fully equipped with advanced engineering, project management and interpersonal skills and capable of starting work immediately.

Indicative student workload

You can expect to participate in a range of teaching activities each week. This could include classes, seminars, practicals and online interaction. You can refer to the individual unit details in the course structure for more information. You will also need to study and complete assessment tasks in your own time.

Career opportunities

Graduates of this course may find career opportunities associated with their study area in a wide range of industries. Employers look for graduates who are fully equipped with advanced engineering skills and capable of starting work projects immediately. With strong demand for professional engineers continuing to increase, engineering graduates can be selective about the location and type of employer they wish to work for.

Participation requirements

Placement can occur at any time, including during the standard holiday breaks listed here: https://www.deakin.edu.au/courses/key-dates.

Elective units may be selected that include compulsory placements, work-based training, community-based learning or collaborative research training arrangements.

Reasonable adjustments to participation and other course requirements will be made for students with a disability. Click here for more information.

Students commencing in Trimester 3 will be required to complete units in Trimester 3.

Mandatory student checks

Any unit which contains work integrated learning, a community placement or interaction with the community may require a police check, Working with Children Check or other check.

Alternative exits

Graduate Certificate of Engineering (S550)
Graduate Diploma of Engineering (S652)

Equipment requirements

Students must have access to a suitable computer and a network connection. Information about the hardware and software requirements may be obtained from the School of Engineering, telephone 03 9244 6699.

Fees and charges

Fees and charges vary depending on your course, the type of fee place you hold, your commencement year and your study load. To find out about the fees and charges that apply to you, visit the Current students fees website or our handy Fee estimator to help estimate your tuition fees.

Course Learning Outcomes

Deakin Graduate Learning Outcomes	Course Learning Outcomes
Discipline-specific knowledge and capabilities	Apply knowledge of engineering principles and techniques, and use research, project design and management skills and approaches to systematically investigate, interpret, analyse and generate solutions for complex problems and issues. Respond to or initiate research concerned with advancing engineering and developing new principles and technologies within the specialist engineering discipline using appropriate methodologies and thereby contribute to continual improvement in the practice and scholarship of engineering. Manage engineering solutions, projects and programs, and ensure reliable functioning of all materials, components, sub-systems and technologies as well as all interactions between the technical system and the context within which it functions to form a complete, sustainable and self-consistent system that optimises social, environmental and economic outcomes over its full lifetime. Advocate engineering ideas and make engineering decisions from conception through to implementation by properly evaluating and integrating technical and non-technical considerations as desirable outcomes of engineering projects and practice.
Communication	Prepare high quality engineering documents and present information including approaches, procedures, concepts, solutions, and technical details in oral, written and/or visual forms appropriate to the context, in a professional manner. Use reasoning skills to critically and fairly analyse the viewpoints of stakeholders and specialists, and consult in a professional manner when presenting an engineering viewpoint, arguments, justifications or solutions to engage technical and non-technical audience in discussions, debate and negotiations.
Digital literacy	Use a wide range of digital engineering and scientific tools and techniques to analyse, simulate, visualise, synthesise and critically assess information and methodically and systematically differentiate between assertion, personal opinion and evidence for engineering decision-making. Demonstrate the ability to independently and systematically locate and share information, standards and regulations that pertain to the specialist engineering discipline.
Critical thinking	Identify, discern, and characterise salient issues, determine and analyse causes and effects, justify and apply appropriate assumptions, predict performance and behaviour, conceptualise engineering approaches and evaluate potential outcomes against appropriate criteria to synthesise solution strategies for complex engineering problems.
Problem solving	Use research-based knowledge and research methods to identify, reveal and define complex engineering problems which involve uncertainty, ambiguity, imprecise information, conflicting technical or nontechnical factors and safety and other contextual risks associated with engineering application within an engineering discipline. Apply technical knowledge, problem solving skills, appropriate tools and resources to design components, elements, systems, plant, facilities, processes and services to satisfy user requirements taking in to account broad contextual constraints such as social, cultural, economic, environmental, legal, political and human factors as an integral factor in the process of developing responsible engineering solutions. Identify recent developments, develop alternative concepts, solutions and procedures, appropriately challenge engineering practice from technical and non-technical viewpoints and thereby demonstrate capacity for creating new technological opportunities, approaches and solutions.
Self-management	Regularly undertake self-review and take notice of feedback to reflect on achievements, plan professional development needs, learn from the knowledge and standards of a professional and intellectual community and contribute to its maintenance and advancement. Commit to and uphold codes of ethics, established norms, standards, and conduct that characterises accountability and responsibility as a professional engineer, while ensuring safety of other people and protection of the environment.
Teamwork	Function effectively as a team member, take various team roles, consistently complete all assigned tasks within agreed deadlines, proactively assist, contribute to ideas, respect opinions and value contribution made by others when working collaboratively in learning activities to realise shared team objectives and outcomes. Apply people and personal skills to resolve any teamwork issues, provide constructive feedback that recognises the value of alternative and diverse viewpoints, and contribute to team cohesiveness, bringing to the fore and discussing shared individual and collective knowledge and creative capacity to develop optimal solutions to complex engineering problems.
Global citizenship	Demonstrate an advanced understanding of the global, cultural and social diversity and complex needs of communities and cultures through the assessment of qualitative and quantitative interactions between engineering practices, the environment and the community, the implications of the law, relevant codes, regulations and standards. Actively seek traditional, current and new information to assess trends and emerging practice from local, national and global sources and appraise the diversity, equity and ethical implications for professional practice.

Approved by Faculty Board 3 September 2020

Course rules

To complete the Master of Engineering (Professional), students must attain 16 credit points. Most units (think of units as ‘subjects’) are equal to 1 credit point. So that means in order to gain 16 credit points, you’ll need to study 16 units (AKA ‘subjects’) over your entire degree. Most students choose to study 4 units per trimester, and usually undertake two trimesters each year.

The course comprises a total of 16 credit points, which must include the following:

7 core units (totalling 8 credit points)
Completion of STP710 Career Tools for Employability (0-credit point compulsory unit)
Completion of SEE700 Safety Induction Program (0-credit point compulsory unit)
Completion of STP050 Academic Integrity (0-credit point compulsory unit)
One 4-credit point specialisation from the first Engineering specialisation list below. You will be required to complete at least one specialised study as part of this course.
4 credit points of elective units, which may be selected from the:
- First Engineering specialisation list OR
- Second Engineering specialisation OR
- Course-grouped electives list

Students are required to meet the University's academic progress and conduct requirements. Click here for more information.

Specialisations

Refer to the details of each specialisation for availability.

First Engineering specialisation (4-credit points):

Second Engineering specialisation (4-credit points):

Course structure

Core

STP050

Academic Integrity (0 credit points)

STP710

Career Tools for Employability (0 credit points)

SEE700

Safety Induction Program (0 credit points)

SEM721

Engineering Design

SEN700

Research Methodology

SEN710

Engineering Project Initiation

SET721

Engineering Sustainability

SEN720

Project Implementation and Evaluation (2 credit points)

SEN723

Managing Engineering Projects

plus

SEL703

Internship - Engineering

SEP701

Engineering Professional Practice

plus

A four (4) credit point specialisation.

plus

A second four (4) credit point specialisation OR

four course group elective units at level 7 (totalling four credit points) selected from the list below.

Electives

Course grouped elective units:

ADH702

Humanitarian - Development Nexus

ADH703

Evidence and Decision Making in Humanitarian Action

MAA754

Enterprise Risk Management

MIS701

Business Requirements Analysis

MIS712

Managing Digital Transformation

MIS770

Foundation Skills in Data Analysis

MIS771

Descriptive Analytics and Visualisation

MIS772

Predictive Analytics

MIS775

Decision Modelling for Business Analytics

MIS779

Decision Analytics in Practice

MIS781

Business Intelligence and Database

MIS782

Value of Information

MIS784

Marketing Analytics

MPA702

Financial Interpretation

MPE781

Economics for Managers

MPM701

Business Process Management

MPM703

Business Strategy and Analysis

MPM722

Human Resource Management

MPM732

Critical Thinking for Managers

MWL705

Cultural Experience

SEB724

Engineering Leadership

SEB725

Engineering Entrepreneurship

SEE707

Energy Market and Policy

SEE719

Microgrid Design and Management

SEN729

Railway Infrastructure Design and Management

SIT717

Enterprise Business Intelligence

SIT718

Real World Analytics

SIT719

Analytics for Security and Privacy

SIT720

Machine Learning

SIT742

Modern Data Science

SIT763

Cyber Security Management

SLE720

Risk Assessment and Control

SLE721

Policy and Planning for Sustainable Development

SLE725

Environmental Management Systems

SLE740

Climate Change, Adaptation and Mitigation

SLE741

Regional Development Economics and Planning

SLE742

Systems and Strategic Thinking

SLE743

Regional Development Modelling

SRT750

Sustainable Futures

SRQ762

Cost Planning and Economics

SRQ774

Construction Measurement and Estimating

SRQ780

Strategic Construction Procurement

Work experience

You may have the opportunity to complete an engineering internship of 120-160 hours (typically as a 4-6 week unpaid placement or as a 12 week unpaid placement) in an Engineering-related position.

Details of specialisations

Additive Manufacturing

Campuses

Waurn Ponds (Geelong), Cloud (online)

Unit set code

SP-S000085

Overview

Additive manufacturing lets us create complex products that were previously impossible to make. It allows us to reimagine products, manufacturing and product service systems. In addition, because parts are modelled in a virtual environment and then built in layers, each part can be customised and there is minimal material waste. This is a fascinating and rapidly expanding area of manufacturing that has implications for engineering, medical, healthcare, and consumer product outcomes. This specialisation provides you with the knowledge and understanding as well as the skills and tools to build on your manufacturing expertise and take your career to the next level.

Units

SEM723

Simulation, Testing and Validation for Additive Manufacturing

SEM724

Design for Additive Manufacturing

SEM725

Materials for Additive Manufacturing

SEM726

Advanced 3d Modelling and Simulation for Additive Manufacturing

Details of specialisations

Civil Engineering

Campuses

Waurn Ponds (Geelong), Cloud (online)

Unit set code

SP-S000086

Overview

Civil engineers facilitate the solving of problems for the benefit and advancement of our communities through the installation and management of infrastructure using mathematics and scientific principles. They plan, design and test the structures of private and public buildings and facilities. This specialisation provides you with the opportunity to extend your engineering knowledge, skillset and competencies for employment across several industries, particularly in relation to designing, constructing and maintaining civil infrastructures and physical systems.

Units

SEN725

Urban Stormwater Asset Design

SEN727

Applied Rock Engineering

SEN728

Transportation Infrastructure Systems

SEN769

Advanced Structural Design

Details of specialisations

Electrical and Renewable Energy Engineering

Campuses

Waurn Ponds (Geelong), Cloud (online)

Unit set code

SP-S000076

Overview

This specialisation provides unique technical, research and practical learning experiences to prepare graduates for professional and leadership roles in contemporary power system environments. Students will have access to industry-standard tools and world-class facilities, as well as opportunities to engage with internationally recognised teaching and research staff who have extensive experience in electrical and renewable energy.

Units

SEE705

Energy Efficiency and Demand Management

SEE716

Electrical Systems Protection

SEE717

Smart Grid Systems

SEE718

Renewable Energy Systems

Details of specialisations

Mechatronics and Control Engineering

Campuses

Waurn Ponds (Geelong), Cloud (online)

Unit set code

SP-S000051

Overview

Mechatronics engineers design high-tech engineering industrial autonomous systems. They develop control mechanisms and systems for the autonomous process, perform data collection and analysis to improve the quality of the end product and the efficiency of the manufacturing process, and implement electronic control systems for industrial applications. This specialisation will allow students to develop contemporary knowledge and skills to be able to contribute to the workforce as professional mechatronics engineers.

Units

SEE701

Control Systems Engineering

SEE710

Instrumentation and Process Control

SEE711

Sensor Networks

SEE712

Embedded Systems

Details of specialisations

Mechanical Engineering Design

Campuses

Waurn Ponds (Geelong), Cloud (online)

Unit set code

SP-S000049

Overview

Product development and innovation are key drivers for industry. Mechanical engineers contribute to planning, designing, organising and overseeing the assembly, erection, commissioning, operation and maintenance of mechanical and process plant installations to roll products out of the production line. Mechanical engineers are employed in a wide range of industries including the automotive industry, aerospace and transport industries, power generation, refineries, insurance industries, building services, railway systems design, consumer goods design and production and management consultancies. This specialisation brings together studies in leading computer-aided engineering technologies, and advanced materials and manufacturing, while drawing on Deakin’s world-class research teams in a practical and applied approach to address structural mechanics problems. You will acquire a solid understanding of product and process modelling and designing for sustainability.

Units

SEJ751

Materials Performance and Durability

SEM711

Product Development Technologies

SEM712

Introduction to Finite Element Analysis

SEM722

Advanced Manufacturing Technology

Details of specialisations

Engineering Management

Campuses

Waurn Ponds (Geelong), Cloud (online)

Unit set code

SP-S000077

Overview

Industry expects professional engineers to lead, develop and manage products throughout their life cycle. The expectations later grow towards marketing, servicing and supporting the product, while ensuring its sustainability. This specialisation allows you to develop your knowledge and understanding to propose business performance improvements, conceptualise, strategize, and execute engineering projects, processes and systems for solving real-world problems. You will learn how to provide suggestions for integrating information and technological advancements for adaptation through research and development, continuing professional development and performance planning and review activities, and contribute to the management of engineering activities within an engineering business in an effective manner.

Units

SEB711

Managing and Developing Innovation

SEB724

Engineering Leadership (2 credit points)

SEB725

Engineering Entrepreneurship

Other course information

Course duration - additional information

Course duration may be affected by delays in completing course requirements, such as accessing or completing work placements.

Further information

Student Central can help you with course planning, choosing the right units and explaining course rules and requirements.

Contact Student Central

Other learning experiences

You may choose to use one of your elective units to undertake an internship or participate in an overseas study tour to enhance your global awareness and experience.