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Masters Degrees (Engineering Science)

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This programme is suitable for engineering, mathematics or physical science graduates who want to specialise in this vibrant strand of engineering. Read more

Summary

This programme is suitable for engineering, mathematics or physical science graduates who want to specialise in this vibrant strand of engineering. The academically challenging course provides exposure to modern issues in advanced mechanical engineering science, with the opportunity to specialise in mechatronics. This masters course could see you designing robots and building machines that could change modern life.

Modules

Compulsory modules: Introduction to Advanced Mechanical Engineering Science; Control and Instrumentation; Advanced Sensors and Condition Monitoring; Advanced Electrical Systems; Advanced Control Design; MSc Research Project

Optional modules: further module options are available

Visit our website for further information...



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Summary Suitable for engineering, mathematics and physical sciences graduates, this course is led by world-class experts from the national Centre for Advanced Tribology (nCATS). Read more

Summary

Summary Suitable for engineering, mathematics and physical sciences graduates, this course is led by world-class experts from the national Centre for Advanced Tribology (nCATS). This programme provides a comprehensive and academically challenging exposure to modern issues in advanced mechanical engineering science. You may specialise in any relevant aspect of tribology, from the traditional concepts of friction and wear to the cutting-edge development in surface engineering and bioengineering.

Modules

Compulsory modules: Introduction to Advanced Mechanical Engineering Science; Surface Engineering; Bio, Nano and Modelling Aspects of Tribology; Microstructural and Surface Characterisation; MSc Research Project

Optional modules: further module options are available

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This course covers the latest techniques and methods in this dynamic advanced mechanical engineering science subject. You will develop your knowledge of microstructural and surface characterisation and investigate the performance of structural materials in engineering applications. Read more

Summary

This course covers the latest techniques and methods in this dynamic advanced mechanical engineering science subject. You will develop your knowledge of microstructural and surface characterisation and investigate the performance of structural materials in engineering applications.

Modules

Compulsory modules: Introduction to Advanced Mechanical Engineering Science; Microstructural Engineering for Transport Applications; Surface Engineering; Failure of Materials and Components; Microstructural and Surface Characterisation
Optional modules: further module options are available

Visit our website for further information...



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Computational modelling is crucial for many industries, from bioengineering to automotive and aerospace. Read more

Summary

Computational modelling is crucial for many industries, from bioengineering to automotive and aerospace. This academically challenging course covers the latest techniques, methods and simulation software to give accurate insights into how innovative design ideas will work in practice and how to work effectively with industry.

Modules

Compulsory modules: Introduction to Advanced Mechanical Engineering Science; Numerical Methods; Advanced Computational Methods I; Design Search and Optimisation (DSO) - principles, methods, parameterizations and case studies; MSc Research Project

Optional modules: further module options are available

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This MSc is designed for engineering, mathematics or physical science graduates. It provides an opportunity to. specialise in the design, monitoring and analysis of propulsion and engine systems. Read more

Summary

This MSc is designed for engineering, mathematics or physical science graduates. It provides an opportunity to
specialise in the design, monitoring and analysis of propulsion and engine systems. Students will learn to confidently analyse and design advanced electrical systems.

Modules

Compulsory modules: Introduction to Advanced Mechanical Engineering Science; Advanced Electrical Systems; Aircraft Propulsion; Automotive Propulsion; MSc Research Project

Optional modules: further module options are available

Visit our website for further information...



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This degree mirrors the two-year Masters programme structure that is common in the USA, and is an ideal stepping stone to a PhD or a career in industry. Read more
This degree mirrors the two-year Masters programme structure that is common in the USA, and is an ideal stepping stone to a PhD or a career in industry.

The optional professional placement component gives you the opportunity to gain experience from working in industry, which cannot normally be offered by the standard technically-focused one-year Masters programme.

PROGRAMME OVERVIEW

The Electronic Engineering Euromasters programme is designed for electronic engineering graduates and professionals with an interest in gaining further qualifications in advanced, cutting-edge techniques and technologies. Current pathways offered include:
-Communications Networks and Software
-RF and Microwave Engineering
-Mobile Communications Systems
-Mobile and Satellite Communications
-Mobile Media Communications
-Computer Vision, Robotics and Machine Learning
-Satellite Communications Engineering
-Electronic Engineering
-Space Engineering
-Nanotechnology and Renewable Energy
-Medical Imaging

Please note that at applicant stage, it is necessary to apply for the Electronic Engineering (Euromasters). If you wish to specialise in one of the other pathways mentioned above, you can adjust your Euromaster programme accordingly on starting the course.

PROGRAMME STRUCTURE

This programme is studied full-time over 24 months and part-time over 60 months. It consists of ten taught modules and an extended project. The following modules are indicative, reflecting the information available at the time of publication. Please note that not all modules described are compulsory and may be subject to teaching availability and/or student demand.
-Digital Communications
-Digital Signal Processing A
-Object Oriented Design and C++
-RF and Microwave Fundamentals
-Nanoscience and Nanotechnology
-Space Dynamics and Missions
-Space Systems Design
-Antennas and Propagation
-Image Processing and Vision
-Fundamentals of Mobile Communications
-Principles of Telecommunications and Packet Networks
-Space Robotics and Autonomy
-Speech and Audio Processing and Recognition
-Satellite Communication Fundamentals
-Satellite Remote Sensing
-Molecular Electronics
-RF Systems and Circuit Design
-Internet of Things
-Nanofabrication and Characterisation
-Space Avionics
-Applied Mathematics for Communication Systems
-Data and Internet Networking
-Digital Design with VHDL
-Computer Vision and Pattern Recognition
-Mediacasting
-Semiconductor Devices and Optoelectronics
-AI and AI Programming
-Advanced Signal Processing
-Advanced Guidance, Navigation and Control
-Image and Video Compression
-Launch Vehicles and Propulsion
-Advanced Mobile Communication Systems
-Microwave Engineering Optional
-Nanoelectronics and Devices
-Network and Service Management and Control
-Operating Systems for Mobile Systems Programming
-Advanced Satellite Communication Techniques
-Nanophotonics Principles and Engineering
-Mobile Applications and Web Services
-Spacecraft Structures and Mechanisms
-Space Environment and Protection
-Renewable Energy Technologies
-Engineering Professional Studies 1 (with industrial Placement)
-Engineering Professional Studies 1
-Engineering Professional Studies 2
-Extended Project

PARTNERS

The MSc Euromasters complies with the structure defined by the Bologna Agreement, and thus it is in harmony with the Masters programme formats adhered to in European universities. Consequently, it facilitates student exchanges with our partner universities in the Erasmus Exchange programme.

A number of bilateral partnerships exist with partner institutions at which students can undertake their project. Current partnerships held by the Department include the following:
-Brno University of Technology, Czech Republic
-University of Prague, Czech Republic
-Universität di Bologna, Italy
-Universität Politècnica de Catalunya, Barcelona, Spain
-Universita' degli Studi di Napoli Federico II, Italy

EDUCATIONAL AIMS OF THE PROGRAMME

The taught postgraduate degree programmes of the Department are intended both to assist with professional career development within the relevant industry and, for a small number of students, to serve as a precursor to academic research.

Our philosophy is to integrate the acquisition of core engineering and scientific knowledge with the development of key practical skills (where relevant). To fulfil these objectives, the programme aims to:
-Attract well-qualified entrants, with a background in electronic engineering, physical sciences, mathematics, computing and communications, from the UK, Europe and overseas
-Provide participants with advanced knowledge, practical skills and understanding applicable to the MSc degree
-Develop participants' understanding of the underlying science, engineering, and technology, and enhance their ability to relate this to industrial practice
-Develop participants' critical and analytical powers so that they can effectively plan and execute individual research/design/development projects
-Provide a high level of flexibility in programme pattern and exit point
-Provide students with an extensive choice of taught modules, in subjects for which the Department has an international and UK research reputation

A graduate from this MSc programme should:
-Know, understand and be able to apply the fundamental mathematical, scientific and engineering facts and principles that underpin electronic engineering
-Be able to analyse problems within the field of electronic engineering and find solutions
-Be able to use relevant workshop and laboratory tools and equipment, and have experience of using relevant task-specific software packages to perform engineering tasks
-Know, understand and be able to use the basic mathematical, scientific and engineering facts and principles associated with the topics within electronic engineering
-Be aware of the societal and environmental context of his/her engineering activities
-Be aware of commercial, industrial and employment-related practices and issues likely to affect his/her engineering activities
-Be able to carry out research-and-development investigations
-Be able to design electronic circuits and electronic/software products and systems

Enhanced capabilities of MSc (Euromasters) graduates:
-Demonstrate transferable skills such as problem solving, analysis and critical interpretation of data, through the undertaking of the extended 90-credit project
-Know how to take into account constraints such as environmental and sustainability limitations, health and safety and risk assessment
-Have gained comprehensive understanding of design processes
-Understand customer and user needs, including aesthetics, ergonomics and usability
-Have acquired experience in producing an innovative design
-Appreciate the need to identify and manage cost drivers
-Have become familiar with the design process and the methodology of evaluating outcomes
-Have acquired knowledge and understanding of management and business practices
-Have gained the ability to evaluate risks, including commercial risks
-Understand current engineering practice and some appreciation of likely developments
-Have gained extensive understanding of a wide range of engineering materials/components
-Understand appropriate codes of practice and industry standards
-Have become aware of quality issues in the discipline

PROGRAMME LEARNING OUTCOMES

The programme provides opportunities for students to develop and demonstrate knowledge and understanding, skills, qualities and other attributes in the following areas:

General transferable skills
-Be able to use computers and basic IT tools effectively
-Be able to retrieve information from written and electronic sources
-Be able to apply critical but constructive thinking to received information
-Be able to study and learn effectively
-Be able to communicate effectively in writing and by oral presentations
-Be able to present quantitative data effectively, using appropriate methods
-Be able to manage own time and resources
-Be able to develop, monitor and update a plan, in the light of changing circumstances
-Be able to reflect on own learning and performance, and plan its development/improvement, as a foundation for life-long learning

Underpinning learning
-Know and understand scientific principles necessary to underpin their education in electronic and electrical engineering, to enable appreciation of its scientific and engineering content, and to support their understanding of historical, current and future developments
-Know and understand the mathematical principles necessary to underpin their education in electronic and electrical engineering and to enable them to apply mathematical methods, tools and notations proficiently in the analysis and solution of engineering problems
-Be able to apply and integrate knowledge and understanding of other engineering disciplines to support study of electronic and electrical engineering

Engineering problem-solving
-Understand electronic and electrical engineering principles and be able to apply them to analyse key engineering processes
-Be able to identify, classify and describe the performance of systems and components through the use of analytical methods and modelling techniques
-Be able to apply mathematical and computer-based models to solve problems in electronic and electrical engineering, and be able to assess the limitations of particular cases
-Use of quantitative methods for problem solving. Be able to apply quantitative methods relevant to electronic and electrical engineering, in order to solve engineering problems
-Understand and be able to apply a systems approach to electronic and electrical engineering problems

Engineering tools
-Have relevant workshop and laboratory skills
-Be able to write simple computer programs, be aware of the nature of microprocessor programming, and be aware of the nature of software design
-Be able to apply computer software packages relevant to electronic and electrical engineering, in order to solve engineering problems

Technical expertise
-Know and understand the facts, concepts, conventions, principles, mathematics and applications of the range of electronic and electrical engineering topics he/she has chosen to study
-Know the characteristics of particular materials, equipment, processes or products
-Have thorough understanding of current practice and limitations, and some appreciation of likely future developments
-Be aware of developing technologies related to electronic and electrical engineering
-Have comprehensive understanding of the scientific principles of electronic engineering and related disciplines
-Have comprehensive knowledge and understanding of mathematical and computer models relevant to electronic and electrical engineering, and an appreciation of their limitations
-Know and understand, at Master's level, the facts, concepts, conventions, principles, mathematics and applications of a range of engineering topics that he/she has chosen to study
-Have extensive knowledge of a wide range of engineering materials and components
-Understand concepts from a range of areas including some from outside engineering, and be able to apply them effectively in engineering projects

Societal and environmental context
-Understand the requirement for engineering activities to promote sustainable development
Be aware of the framework of relevant legal requirements governing engineering activities, including personnel, health, safety and risk (including environmental risk issues
-Understand the need for a high level of professional and ethical conduct in engineering

Employment context
-Know and understand the commercial and economic context of electronic and electrical engineering processes
-Understand the contexts in which engineering knowledge can be applied (e.g. operations and management, technology development, etc.)
-Be aware of the nature of intellectual property
-Understand appropriate codes of practice and industry standards
-Be aware of quality issues
-Be able to apply engineering techniques taking account of a range of commercial and industrial constraints
-Understand the basics of financial accounting procedures relevant to engineering project work
-Be able to make general evaluations of commercial risks through some understanding of the basis of such risks
-Be aware of the framework of relevant legal requirements governing engineering activities, including personnel, health, safety and risk (including environmental risk) issues

Research and development
-Understand the use of technical literature and other information sources
-Be aware of the need, in appropriate cases, for experimentation during scientific investigations and during engineering development
-Be able to use fundamental knowledge to investigate new and emerging technologies
-Be able to extract data pertinent to an unfamiliar problem, and employ this data in solving the problem, using computer-based engineering tools when appropriate
-Be able to work with technical uncertainty

Design
-Understand the nature of the engineering design process
-Investigate and define a problem and identify constraints, including environmental and sustainability limitations, and health and safety and risk assessment issues
-Understand customer and user needs and the importance of considerations such as aesthetics
-Identify and manage cost drivers
-Use creativity to establish innovative solutions
-Ensure fitness for purpose and all aspects of the problem including production, operation, maintenance and disposal
-Manage the design process and evaluate outcomes
-Have wide knowledge and comprehensive understanding of design processes and methodologies and be able to apply and adapt them in unfamiliar situations
-Be able to generate an innovative design for products, systems, components or processes, to fulfil new needs

Project management
-Be able to work as a member of a team
-Be able to exercise leadership in a team
-Be able to work in a multidisciplinary environment
-Know about management techniques that may be used to achieve engineering objectives within the commercial and economic context of engineering processes
-Have extensive knowledge and understanding of management and business practices, and their limitations, and how these may be applied appropriately

GLOBAL OPPORTUNITIES

We often give our students the opportunity to acquire international experience during their degrees by taking advantage of our exchange agreements with overseas universities.

In addition to the hugely enjoyable and satisfying experience, time spent abroad adds a distinctive element to your CV.

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This comprehensive course will provide you with a multidisciplinary education and hands-on training in petroleum engineering. Read more
This comprehensive course will provide you with a multidisciplinary education and hands-on training in petroleum engineering. You will cover a wide variety of subjects central to the petroleum engineering field, including applied geology and geophysics, drilling and reservoir engineering, hydrocarbon phase behaviour, formation evaluation, petroleum economics and project management.

In your final semester you will complete an individual research project and develop a thesis under the guidance of one of our highly experienced staff.

To assist your studies, we will provide you with access to top of the range computer hardware and software, and the Society of Petroleum Engineers’ online information library.

Professional recognition

Students may apply for student membership of the Society of Petroleum Engineers (U.S). Upon graduation you may apply for active membership of the society.

Career opportunities

There is a strong demand for qualified petroleum engineers in the oil and gas industry, both within Australia and internationally. Our graduates have found work as fully qualified petroleum engineers in the upstream oil and gas industry.

Credit for previous study

Applications for recognition of prior learning are assessed on an individual basis.

International applicants

Minimum English language entry requirements: IELTS Writing- 6.0, Speaking- 6.0, Reading- 6.0, Listening- 6.0, Overall band score- 6.5.

2016 Curtin International Scholarships: Merit Scholarship

Curtin University is an inspiring, vibrant, international organisation, committed to making tomorrow better. It is a beacon for innovation, driving advances in technology through high-impact research and offering more than 100 practical, industry-aligned courses connecting to workplaces of tomorrow.

Ranked in the top two per cent of universities worldwide in the Academic Ranking of World Universities 2015, the University is also ranked 25th in the world for universities under the age of 50 in the QS World University Rankings 2015 Curtin also received an overall five-star excellence rating in the QS stars rating.

Curtin University strives to give high achieving international students the opportunity to gain an internationally recognised education through offering the Merit Scholarship. The Merit Scholarship will give you up to 25 per cent of your first year tuition fees and if you enrol in an ELB program at Curtin English before studying at Curtin, you will also receive a 10 per cent discount on your Curtin English fees.

For full details and terms and conditions of this scholarship, please visit: curtin.edu/int-scholarships and click on Merit.

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Chemical Engineering is dynamic and evolving. It provides many solutions to problems facing industries in the pharmaceutical, biotechnological, oil, energy and food and drink sectors. Read more
Chemical Engineering is dynamic and evolving. It provides many solutions to problems facing industries in the pharmaceutical, biotechnological, oil, energy and food and drink sectors. It is vital to many issues affecting our quality of life; such as better and more economical processes to reduce the environmental burden, and more delicious and longer lasting food due to the right combination of chemistry, ingredients and processing.

Birmingham is a friendly, self-confident, School which has one of the largest concentrations of chemical engineering expertise in the UK. The School is consistently in the top five chemical engineering schools for research in the country.

Selected modules from our taught programmes can be combined with an extended research project to obtain an MRes degree. This is a strongly research-orientated qualification and provides excellent training for further research in industry or academia.

Programme content:

Taught modules support the development of both research and transferable skills. All students take a set of compulsory modules and a selection of optional modules of their choice (subject to timetabling) in addition to their research project

About the School of Chemical Engineering

Birmingham has one of the largest concentrations of Chemical Engineering expertise in the UK, with an excellent reputation in learning, teaching and research.
Investment totalling over £3.5 million in our buildings has resulted in some of the best teaching, computing and laboratory facilities anywhere in the UK.
We have achieved an excellent performance in the Research Excellence Framework (REF) – the system for assessing the quality of research in UK higher education institutions. 87% of the research in the School was rated as world-leading or internationally excellent. It was ranked joint fourth overall in the UK for its research prowess and first nationally for research impact.
The enthusiasm that the academic staff have for their research comes through in their teaching and ensures that they and you are at the cutting edge of chemical engineering.

Funding and Scholarships

There are many ways to finance your postgraduate study at the University of Birmingham. To see what funding and scholarships are available, please visit: http://www.birmingham.ac.uk/pgfunding

Open Days

Explore postgraduate study at Birmingham at our on-campus open days.
Register to attend at: http://www.birmingham.ac.uk/pgopendays

Virtual Open Days

If you can’t make it to one of our on-campus open days, our virtual open days run regularly throughout the year. For more information, please visit: http://www.pg.bham.ac.uk

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Biomedical engineers work at the interface of engineering, biology, and medicine, combining their engineering expertise with an understanding of human biology and medical needs to make the world a healthier place. Read more

Summary

Biomedical engineers work at the interface of engineering, biology, and medicine, combining their engineering expertise with an understanding of human biology and medical needs to make the world a healthier place. This masters course will equip students with the specialist knowledge, expertise and skills to integrate biology and medicine with engineering to solve problems related to living systems.

The MSc Biomedical Engineering is designed for engineering, and physical science graduates who want to specialise in this vibrant area of engineering. There is high demand for biomedical engineers, and this masters has been developed with our graduates’ employability in mind.

During this course, students will learn the fundamental scientific and technical aspects of biomedical engineering, alongside developing your knowledge of the relevant aspects of human biology in health and disease. This interdisciplinary course draws on expertise from leading departments within the University of Southampton, brought together through the Institute for Life Sciences; Engineering and the Environment, Medicine, Health Sciences, Natural and Environmental Sciences, and Electronics and Computer Science.

Modules

Compulsory modules: Human Biology and Systems Physiology, Introduction to Biomedical Engineering, Translational Medicine, MSc Research Project.
Optional modules: a wide variety of optional modules are available. If you choose to, you will be able to specialise in your chosen area of biomedical engineering through themed areas of application: musculoskeletal, cardiovascular, imaging, diagnostic systems and audiology.

Visit our website for further information...



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The Electronic Engineering Department offers a structured Research Masters programme in Electronic Engineering. Read more

Overview

The Electronic Engineering Department offers a structured Research Masters programme in Electronic Engineering. The objective of this programme is to produce high quality graduates with the skills and advanced engineering knowledge to operate as independent researchers and take on leadership roles in research and development both in academia and in industry. Our structured approach to postgraduate education provides students with an excellent foundation in a variety of technical areas that are targeted towards the research area of the student combined with training in research, communication and business skills. We will also encourage engagement with the global research community, in academia and industry, through research visits, internships and attending conferences.

The structured Research Masters in Electronic Engineering is also offered by the Callan Institute. The Institute is focused on the use of information, computing and communications technologies to address challenges arising from our increasingly complex world – our communications and technology driven environment and the impact on our personal lives. The Institute’s area of expertise is in electronic and software systems, wireless communications and in data mining, knowledge extraction and cognition. As a group, we wish to blend focused basic research with a systems perspective that drives cross-disciplinary developments, essential in tackling the new challenges arising from the need for a more sustainable, knowledge-driven society. Innovation, and the transfer of the knowledge gained from our research, is a fundamental principle for the Institute.

A key element of achieving this is the construction of demonstrators and experimental platforms for demonstrating our achievements. We welcome engagement with all companies, local and international and we have demonstrated success in transferring knowledge and technology to assist new startup companies and product development. The Callan Institute provides research students with the skills and advanced engineering knowledge to operate as independent researchers and take on leadership roles in research and development.

Closing date:
Research applications are generally accepted at any time

Course Structure

Students must take a minimum of 10 credits in taught modules (at least 5 in generic/transferable modules and at least 5 in subject specific/advanced specialist modules) from the Structured PhD programme.

Career Options

The programme offered by Electronic Engineering provide students with an excellent foundation for a wide variety of careers. The core of the structured programme is the research programme that will be undertaken by the student. This will allow the student to gain deep insight and expertise in their specific focus area. In engineering, there is normally a strong correspondence between our research areas and career opportunities – be it in industry or continuing in the academic arena.

The taught element of the structured programme broadens the skills and perspective of the student with modules on entrepreneurship, communication and presentation skills. The experience our postgraduate research students will be enhanced by the Department’s excellent and in-depth relationships with industry partners nationally and internationally.

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This course is designed to meet the needs of professional metallurgists with an undergraduate qualification in this field. It will help you develop specialist knowledge and skills in extractive metallurgy and provide you with the knowledge and qualifications required to further your career in the minerals industry. Read more
This course is designed to meet the needs of professional metallurgists with an undergraduate qualification in this field. It will help you develop specialist knowledge and skills in extractive metallurgy and provide you with the knowledge and qualifications required to further your career in the minerals industry.

You will choose from a range of higher level coursework units to complement your educational background and career aspirations. You will also undertake project work which may involve research, field and laboratory work and you will complete a written report and/or dissertation on your findings.

Please note that this course includes three units that require you to attend laboratory sessions, totalling two or three days per semester, at the Kalgoorlie campus.

Career opportunities

Careers for extractive metallurgy specialists include in-house specialists in mining and chemical companies, consultants, academics and researchers.

Credit for previous study

Applications for credit for recognised learning (CRL) are assessed on an individual basis. If you hold a Curtin Graduate Diploma in Metallurgy or Bachelor of Engineering (Minerals Engineering), or equivalent, you can be granted up to 100 points of CRL. Other qualifications and/or experience may be considered in your application.

Notes

The equivalent of one semester's worth of units may be taken from other universities such as the University of Queensland, towards this degree with the approval of the course coordinator.

2016 Curtin International Scholarships: Merit Scholarship

Curtin University is an inspiring, vibrant, international organisation, committed to making tomorrow better. It is a beacon for innovation, driving advances in technology through high-impact research and offering more than 100 practical, industry-aligned courses connecting to workplaces of tomorrow.

Ranked in the top two per cent of universities worldwide in the Academic Ranking of World Universities 2015, the University is also ranked 25th in the world for universities under the age of 50 in the QS World University Rankings 2015 Curtin also received an overall five-star excellence rating in the QS stars rating.

Curtin University strives to give high achieving international students the opportunity to gain an internationally recognised education through offering the Merit Scholarship. The Merit Scholarship will give you up to 25 per cent of your first year tuition fees and if you enrol in an ELB program at Curtin English before studying at Curtin, you will also receive a 10 per cent discount on your Curtin English fees.

For full details and terms and conditions of this scholarship, please visit: curtin.edu/int-scholarships and click on Merit.

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This course is designed to produce engineers capable of designing, operating and managing a mining operation. There are two major options. Read more
This course is designed to produce engineers capable of designing, operating and managing a mining operation. There are two major options: Mine Geotechnical and Mine Planning and Management.

The course and majors are suitable if you wish to gain specialist knowledge in mining engineering or are a graduate currently working within the mining industry and want to significantly upgrade your knowledge with a view to furthering your career in this field.

Individualised project topics are developed with a nominated supervisor. Career paths for mining professionals include in-house specialists in mining companies or employment as consultants, academics and researchers.

Graduates may obtain employment within these sectors or further their current career in mining engineering in the minerals industry.

Career opportunities

Careers for mining professionals include in-house specialists in mining and chemical companies, consultants, academics and researchers. Graduates can expect to obtain employment within these sectors or to further their current careers in mining engineering within the minerals industry.

Credit for previous study

Applications for credit for recognised learning (CRL) are assessed on an individual basis. If you hold a Curtin Graduate Diploma in Mining or a Bachelor of Engineering (Mining Engineering), you may receive up to 100 credits for recognised learning.

2016 Curtin International Scholarships: Merit Scholarship

Curtin University is an inspiring, vibrant, international organisation, committed to making tomorrow better. It is a beacon for innovation, driving advances in technology through high-impact research and offering more than 100 practical, industry-aligned courses connecting to workplaces of tomorrow.

Ranked in the top two per cent of universities worldwide in the Academic Ranking of World Universities 2015, the University is also ranked 25th in the world for universities under the age of 50 in the QS World University Rankings 2015 Curtin also received an overall five-star excellence rating in the QS stars rating.

Curtin University strives to give high achieving international students the opportunity to gain an internationally recognised education through offering the Merit Scholarship. The Merit Scholarship will give you up to 25 per cent of your first year tuition fees and if you enrol in an ELB program at Curtin English before studying at Curtin, you will also receive a 10 per cent discount on your Curtin English fees.

For full details and terms and conditions of this scholarship, please visit: curtin.edu/int-scholarships and click on Merit.

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This course is designed to meet the needs of electrical, electrical power, electronic and telecommunication engineers who are looking to open up their career prospects. Read more
This course is designed to meet the needs of electrical, electrical power, electronic and telecommunication engineers who are looking to open up their career prospects. You will specialise in one of three majors: Emerging Power Systems, Telecommunication and Networking, or Embedded Systems. Among a wide range of optional units, you may study electrical power, renewable energy, communications and computer engineering at the system level and the component level.

The course is designed to allow you to undertake further studies in a field of your preference through advanced coursework and a major project, ultimately developing a prototype and presenting a formal thesis on the outcome. With the approval of the course coordinator, you may also include a unit from the Curtin Business School, or the Department of Computing, or the Department of Mathematics and Statistics.

EMERGING POWER SYSTEMS (314675)

Global demands on resources have placed an urgent emphasis on supplying a growing population with affordable, environmentally responsible power. How we manage this challenging paradigm will rely on a new generation of creative, technically savvy engineers. Since fossil fuels are a finite resource, the development of alternative sources of electrical energy such as solar and wind is vital.

The challenges that face you as a power engineer include interfacing renewable sources to the electricity distribution system, maintaining stability in the presence of many small energy sources and guaranteeing an electrical supply in the presence of intermittent sources such as solar power.

This major addresses challenges in the generation, transmission and distribution of electricity. Emergent technologies like smart grid and distributed generation are covered in detail. You will have the opportunity to further investigate and apply emergent technologies through your project work.

TELECOMMUNICATIONS AND NETWORKING (314676)

The electronics and communication fields represent two of the greatest growing technology areas in the world. With the rapid progress of information technology, the role of communications is becoming even more crucial for increasing industry efficiency and competition – whether machine talking to machine, computer with computer or human with human via a wide array of methods.

This major explores relevant topics in telecommunications and networking like mobile radio communications and data network security. The wide range of optional units includes topics such as computer architectural philosophies, LAN and WAN technologies, electromagnetics, error control coding, troubleshooter management, legal frameworks, and system design. You will also have the opportunity to further investigate a specialist area and apply your skills and knowledge through your project work.

EMBEDDED SYSTEMS (314677)

Our world is characterised by the ever-increasing number of intelligent devices which have inbuilt or 'embedded' computers. Computers in the form of microprocessors are being embedded in almost every other form of system to control them or provide additional services, creating a strong demand for electrical engineers in all industrially advanced nations.

In this major, you will study intermediate and advanced topics in embedded systems, for example, embedded systems in field-programmable gate arrays (FPGAs) and embedded software engineering. You will have the opportunity to further investigate and apply emergent technologies in embedded systems through your chosen advanced project.

Credit for previous study

Applications for recognition of prior learning (RPL) are assessed on an individual basis.

2016 Curtin International Scholarships: Merit Scholarship

Curtin University is an inspiring, vibrant, international organisation, committed to making tomorrow better. It is a beacon for innovation, driving advances in technology through high-impact research and offering more than 100 practical, industry-aligned courses connecting to workplaces of tomorrow.

Ranked in the top two per cent of universities worldwide in the Academic Ranking of World Universities 2015, the University is also ranked 25th in the world for universities under the age of 50 in the QS World University Rankings 2015 Curtin also received an overall five-star excellence rating in the QS stars rating.

Curtin University strives to give high achieving international students the opportunity to gain an internationally recognised education through offering the Merit Scholarship. The Merit Scholarship will give you up to 25 per cent of your first year tuition fees and if you enrol in an ELB program at Curtin English before studying at Curtin, you will also receive a 10 per cent discount on your Curtin English fees.

For full details and terms and conditions of this scholarship, please visit: curtin.edu/int-scholarships and click on Merit.

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Electrical utility Engineering includes the generation, transmission, distribution and use of electrical energy. In this course, the research component of a traditional master degree has been replaced by industry-based project work, which you can tie in with your work commitments. Read more
Electrical utility Engineering includes the generation, transmission, distribution and use of electrical energy.

In this course, the research component of a traditional master degree has been replaced by industry-based project work, which you can tie in with your work commitments.

You will study specialised electrical utility topics, including power flow calculations, fault calculation, power quality, power system stability, grids, demand forecasting, computer-aided engineering of power systems and renewable energy.

In this course, you will build practical knowledge and skills through industry relevant course topics, intensive block programs and off-campus resource-based learning.

Credit for previous study

Applications for recognition of prior learning (RPL) are assessed on an individual basis. Recognition of prior learning not exceeding two-thirds of the required credits may be granted to a student transferring from another program at a recognised institution with satisfactory completion of equivalent coursework and/or proof of professional training or substantial work experience gained in industry.

2016 Curtin International Scholarships: Merit Scholarship

Curtin University is an inspiring, vibrant, international organisation, committed to making tomorrow better. It is a beacon for innovation, driving advances in technology through high-impact research and offering more than 100 practical, industry-aligned courses connecting to workplaces of tomorrow.

Ranked in the top two per cent of universities worldwide in the Academic Ranking of World Universities 2015, the University is also ranked 25th in the world for universities under the age of 50 in the QS World University Rankings 2015 Curtin also received an overall five-star excellence rating in the QS stars rating.

Curtin University strives to give high achieving international students the opportunity to gain an internationally recognised education through offering the Merit Scholarship. The Merit Scholarship will give you up to 25 per cent of your first year tuition fees and if you enrol in an ELB program at Curtin English before studying at Curtin, you will also receive a 10 per cent discount on your Curtin English fees.

For full details and terms and conditions of this scholarship, please visit: curtin.edu/int-scholarships and click on Merit.

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This MSc programme is suitable for engineering, mathematics, and physical sciences graduates who wish to specialise in core naval architecture subject areas, with an in-depth study of engineering materials. Read more

Summary

This MSc programme is suitable for engineering, mathematics, and physical sciences graduates who wish to specialise in core naval architecture subject areas, with an in-depth study of engineering materials. No prior specialised knowledge of the discipline is required and an introductory module called Fundamentals of Ship Science is provided in the programme.

[Modules]]

Compulsory modules: Fundamentals of Ship Science; MSc Research Project; Microstructural Engineering for Transport Applications; Marine Law and Management; Failure of Materials and Components; Marine Safety and Environmental Engineering
Optional modules: further modules options are available

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