Bachelor of in: Electrical Power Electronic and Communication Computer Systems Double Degrees degrees with Computer Science degrees with Physics degrees with Commerce electrical and computer engineering AT CURTIN scieng.curtin.edu.au
about: Electrical and computer engineering Electricity has been a subject of scientific interest since the 17 th Century and is now a key energy resource used across all aspects of life. As a result, electrical engineers find employment across a vast range of industries. Studying Electrical and Computer at Curtin, you will experience a high quality education through the use of the latest technology. You will graduate with sound theoretical knowledge, practical skills and a strong understanding of the role of engineering in communities and business environments. Our Students Curtin attracts the largest number of international engineering students within Western Australia and is in the top three Australia wide. Our international presence means opportunities for offshore study and supports the growing international employment market. The demand for our various double degree programs is high as they offer wider employment opportunities for our graduates. Our Graduates Curtin graduates are working in both technical and managerial positions across the globe. The combination of engineering fundamentals, state of the art technology and the necessary social, economic, ethical and managerial elements provide a solid education for our students. Curtin qualifications are relevant, well regarded and internationally recognised and our students have an exceptional record in entrepreneurship with a significant number creating and managing new technology based businesses. Our Staff Curtin staff are chosen for their strong research commitment and broad professional involvement. They are able to develop and adapt their teaching to meet the demands of new technology and the advances in contemporary practice. Our Courses All students commence their engineering studies with a common first year, called the Foundation Year (EFY). The EFY builds fundamental concepts common to all areas of engineering. Electronic & Communication, Computer Systems, or Electrical Power also share the same course content for an additional year following the EFY. Students wishing to transfer from one stream to another can do so prior to the commencement of their third year of study. In addition, throughout your final years of study you are able to choose from a range of optional units to cover more than one speciality area. First Year Studio All Curtin courses include a common first year of study providing you with solid theoretical and practical experience in a wide range of disciplines. Curtin has established an First Year Studio designed to reflect a range of engineering professions and to support your transition into university study. The studio facilities include: Open plan design office Project meeting rooms Learning assistance clinics Computing, Electrical and Mechanics laboratories Curtin s First Year program was awarded the prestigious Carrick Award for First Year Experience in 2006 placing Curtin as a leader in Australian engineering education. Where Do Electrical Graduates Work? 2 Western Power Alcoa Woodside BHP Billiton Barrick Newmont Sinclair Knight Merz HPS Enerflex Telstra IBM Siemens Schlumberger ABB
Double degree programs Courses: ELECTRICAL POWER ENGINEERING Electrical Power Electromagnetics 201 Completing a double degree program leads to a wide range of career opportunities in a variety of industries. They also provide you with increased knowledge across a larger area making it easier for you to find a job on graduation. Related Areas of Study Bachelor of Technology (Computer Systems and Networking) Bachelor of Science (Information Technology) Bachelor of Science (Computer Science) Bachelor of Science (Software ) Bachelor of (Software ) Bachelor of (Mechatronic ) Bachelor of Science (Physics) Computer Science with: Electronic and Communication Computer Systems This double degree program provides graduates with a background in Computer Science and its application in Electronic and Communication. The Computer Science component will give a broad understanding of higher-level systems concepts including operating systems, advanced graphics and algorithm design. Physics with: Electrical Power Electronic and Communication Physics provides the scientific foundation of technology and is highly compatible with Electronic studies. A double degree with physics increases the career opportunities in a variety of established and up coming roles. Fields covered include fluid mechanics, hydrodynamics, thermal physics, radiation and nuclear physics, semiconductor physics, and optics and optical fibres. Students who have completed a double degree with physics are in high demand worldwide and can also consider careers involving research design and development. Commerce with: Electrical Power Electronic and Communication Computer Systems This double degree course produces students who graduate as engineers with a strong background in commerce. This will enhance your future opportunities as an engineering manager in public or private organisations. The program equips graduates with comprehensive practical skills together with business knowledge in areas that are relevant to engineering. The combination of the two degrees provides graduates with the ability to seek broader opportunities in the developing engineering industry. The Australian Power Institute (API) recognises Curtin as a School of Excellence in Electrical Power. The Electrical Power course at Curtin receives financial support and scholarships for students from the API, APA, Western Power, SKM, and many other Western Australian industries. Electricity is a key energy source in the development and progress of contemporary society. Since fossil fuels are a finite resource the development of alternative sources of electrical energy such as solar and wind is vital. As well as meeting the demands of an energy hungry world, these new sources of electricity must be non-polluting, environmentally friendly and safe for future generations. Australia is a leader in alternative energy research due to its extensive sources of renewable energy, particularly sun and wind. Curtin s Electrical Power course is well regarded by industry and students interested in a career in renewable energy will find the degree rewarding and challenging. A new area of interest covered in the degree is Power Electronics. This is the study of the control of electrical currents via a computer. Good Reasons to Study Electrical Power Wide Variety of Career Options Our increasing dependence on electricity means employment opportunities in the area of power generation, transmission and distribution are strong both locally and overseas. Electrical power engineers are able to work in almost any industry that uses electrical power such as mining, the marine industry, transport or alternative energy. Improve Quality of Life The generation and supply of electrical power is vital for the infrastructure of communities. Graduates in electrical power engineering are in a unique position to contribute to the design, implementation, and ongoing development of the power industry, having a positive influence on the quality of people s lives. Help the Environment Modern societies are energy dependent and the decreasing supply of non-renewable energy sources has resulted in a growing interest and support for alternative sources of energy. Electrical power engineers involved in alternative energy are making an impact in preserving our environment through advancements in such areas as solar and wind power. Industry Recognition The Electrical Power course at Curtin is one of the strongest in Australia and is valued by the industry. The Australian Power Institute (API) and the Australian Power Academy (APA) have strongly endorsed the power engineering course at Curtin. High Quality Course Curtin offers a fully accredited course that is relevant to industry and that encompasses theoretical, computer simulated and practical components. Industry Scholarships There are a variety of industry sponsored scholarships and prizes for high achieving students. Embedded Software 204 Power Systems Analysis 301 Renewable Energy Principles 301 Embedded Systems 301 Power Systems Protection 302 Electrical Machines 302 Power Electronics 304 Management 304 Project 401 Power Electronic and Drives 401 Sustainable Development 201 Law 202 Project 402 Electric Power Transmission & Distribution 402 Electric Utility 404 Renewable Energy Systems 402 CRICOS Course Code 052794G 4 5
courses: ELECTRONIC AND COMMUNICATION ENGINEERING courses: COMPUTER SYSTEMS engineering Electronic and Communication Computer Systems Electromagnetics 201 Electromagnetics 201 Embedded Software 204 Communications 303 Electronic Design 301 Embedded Systems 301 Communications 304 Electronic Design 302 Management 304 Project 401 Communication Signal Processing 401 Sustainable Development 201 Law 202 Project 402 Data Communication and Computer Networks 304 Mobile Radio Communications 402 Power Electronics and Drives 401 Computer Systems 302 Course CRICOS Code: 052795G The electronics and communication fields represent two of the fastest growing technology areas both in Australia and internationally and job opportunities in these fields are vast. With the rapid progress of information technology, the role of communications is becoming even more crucial for increasing industry efficiency and competition. Computing and communications have become strongly linked as older technologies have given way to a network of desktop workstations, personal computers, printers, file servers and other additional equipment. Everyday we use and interact with electronic communication technologies such as email, electronic bank transactions, product and ticket purchases over the internet, and intelligent home appliances such as computer-driven fridges, washing machines and air conditioners. In modern factories, computer-driven robots complete the manufacturing process. These robots have sufficient inbuilt intelligence to deal with quality control, maintenance and process control. Communication networks link the design office and factory floor, simplifying the manufacturing process. There is an ever increasing demand for professional engineering expertise in the area of electronics and communications resulting in most of our graduates gaining employment almost immediately on completion of their degree. Good Reasons to Study Electronic and Communication High Quality Course Curtin prepares students for the work place through theoretical studies and practical experience. You will have access to the latest in technology and facilities including laboratories and computer simulations. Diverse Career Options Electronic and communication engineers work in a wide variety of roles, including research and development, production, management, and technical support, in public and private sectors. Job opportunities for these engineers exist in all parts of the world. Help Shape the Future The products of electronic and communication engineering, such as mobile phones, computers and various entertainment electronics, shape modern lifestyles. The rapid advancements in the electronic and communication engineering fields continue to influence developments in human activities, including recreational, industrial, commercial, scientific and medical fields. Make a Difference The ability to communicate with one another, whether simply to stay in touch or to contact emergency services is an important part of everyday life. Electronic and communication engineers play a vital role the development and supply of communication equipment and services. As our lives continue to rely on computer technology, the need for computer system engineers will grow. Offices, factories and homes use computers for a wide range of tasks and require development and support from specialist engineers. Studying computer systems engineering at Curtin, you will explore the areas of artificial intelligence, robotics, machine vision, computeraided design and manufacture, automation and process control. You will also study the fields of office and factory automation, machine learning, automatic control, information appliances, intelligent embedded and distributed systems, real time processing, computer architecture, hardware software co-design, computer communications and the design and management of computer systems. Future career prospects for professional computer system engineers include both established and new areas of demand. Automobiles, health care, agriculture and water monitoring will continue to develop and incorporate more computer technology. At the same time, the increasing need for energy efficiency and minimising greenhouse gas emission will require the sophisticated monitoring and control that only embedded computer systems can offer. As a result, the demand for computer systems engineers will remain high across the international market. Good Reasons to Study Computer Systems Change and Innovation Computer systems engineering can be challenging and exciting career path due to industry advancements and a rapidly expanding range of applications. Wide Range of Careers Computer engineering is one of the fastest growing and largest areas of engineering with an estimated one million practitioners across the globe. Work can be found in areas such as resource, health, automotive and retail industries. Computer system engineers can work for large corporations where designs will be produced in the millions, or for smaller organisations providing specialised services to particular industries. High Quality Course Curtin s Computer Systems program is highly regarded by industry. The course has been offered for more than two decades and was the first of its kind in Western Australia. Help Make a Difference Computer systems engineering researchers at Curtin are involved in development of technology to assist people with physical disabilities. A current project is to develop a new and compact talking book system to be used by the visually impaired. Other projects include the development of low cost Braille readers and printers to assist the visually impaired in the classroom. Embedded Software 204 Foundations of Computer 301 Real Time Operating Systems 301 Embedded Systems 301 Computer Systems 302 Data Communication and Computer Networks 304 Embedded Software 401 Project 401 Theory of Computation 401 Sustainable Development 201 Law 202 Project 402 Management 304 Computer Structures 402 Select Option Unit Communication 304 Course CRICOS Code: 052793J 6 7
more about: ELECTRICAL AND COMPUTER ENGINEERING Professional Recognition Engineers Australia Entry Requirements Local Students Selection is based primarily on Tertiary Entrance Rank (TER). Applicants must meet the standard admission requirements of the University as well as at least three of the following courses: Mathematics 3C/3D, Mathematics: Specialist 3C/3D, Physics 3A/3B and Chemistry 3A/3B. More Information www.prospective.curtin.edu.au International Students Minimum university entry requirements for international students are available from www.international.curtin.edu.au Applicants must demonstrate appropriate high school leaving results in the following areas: Advanced Mathematics, Physics and preferably Chemistry. More Information www.international.curtin.edu.au International Students International students studying in Australia on a student visa can only study full-time and there are also specific entry requirements that must be met. Please refer to www.international.curtin.edu.au or phone +61 8 9266 7331 for further information, as some information contained in this booklet may not be applicable to international students. Australian citizens and permanent residents, and international students studying outside Australia, may have the choice of full-time, part-time and external study. Information about TISC only applies to Australian residents. Women in Many opportunities exist for diversity in the engineering profession. Employers value the contribution of women and actively seek to employ female engineers. Curtin s Women in Computing and Project raises awareness of opportunities for prospective female students and ensures that female computing and engineering students experience a supportive learning environment at Curtin. For more, contact: Honours Honours are awarded to students whose academic performance exceeds a given level throughout their undergraduate degree program. Students may graduate with first class, upper second class or lower second class honours. Honours degrees enhance employment prospects and are essential for students wishing to continue on to postgraduate studies. Further Study Options Master of Science in Electrical, Electrical Utility, Telecommunication and Networking, Renewable Energy Electrical Power Systems and Master of Management. All of Curtin s departments have postgraduate engineering courses which give graduate engineers the opportunity to crossover into new areas or further develop research in their chosen stream. Current Electrical Research at Curtin On completion of a BEng (Electrical) program students with suitable grades are able to undertake further studies by research. Some of the current areas of research include: Western Australian Telecommunications Research Institute (WATRI) Communications and Signal Processing (CSP) Communications Technology Research Group (CTRG) Instrumentation and Intelligent Systems Research Group Power Systems and Renewable Energy Research Group Networking and Rehabilitation Curtin s Bachelor of has received full recognition by Engineers Australia which means graduates are exempt from all additional academic requirements for Corporate Membership. To qualify for Corporate Membership you need a minimum of four years experience after graduation. Graduates accredited by Engineers Australia receive similar privileges from equivalent professional institutions overseas. www.engineersaustralia.org.au Department of Electrical and Computer Curtin University of Technology GPO Box U1987 Perth Western Australia 6845 Tel: +61 8 9266 1000 E: futurestudents@curtin.edu.au W: scieng.curtin.edu.au International Enquiries Tel: +61 8 9266 7331 Fax: +61 8 9266 2605 E: international@curtin.edu.au W: international.curtin.edu.au Information in this publication is correct at the time of printing and is valid for 2008/09, but may be subject to change. In particular, the University reserves the right to change the content and/or method of assessment, to change or alter tuition fees of any unit of study, to withdraw any unit of study or program which it offers, to impose limitations or enrolment in any unit or program, and/or to vary arrangements for any program. Part time and external study is only available to Australian resident students and International students studying outside Australia. Full details of units and course structure can be obtained by contacting the above or electronically from: http://handbook.curtin.edu.au