Swinburne University of Technology - Melbourne Australia
Future Students - Courses
Course Description:
Please note; not all units are offered via distance, therefore it is not possible to complete the program solely by distance learning. This program replaces the Master of Engineering (Advanced Manufacturing Technology) (Honours). The Master of Engineering Science (Advanced Manufacturing Technology) forms the final stage in a four-stage nested suite of programs consisting of: Graduate Certificate of Engineering (Advanced Manufacturing Technology)Master of Technology (Advanced Manufacturing Technology)Master of Engineering (Advanced Manufacturing Technology)Master of Engineering Science (Advanced Manufacturing Technology) (IRAMT4A) Advanced manufacturing technology includes a set of advanced and emerging manufacturing technologies and skills which can be deployed to increase the efficiency, productivity and profitability of modern manufacturing industry. These technologies may include some or all of the following elements in an integrated environment: Computer-aided design and modellingComputer-integrated manufacturingComputer-aided engineering analysisIndustrial robotsFlexible manufacturing systemsIntelligent inspection technologiesRapid product developmentAutomated assemblyLaser-based manufacturing processesAbrasive water jet cuttingMicro and nano technologyComputer control systemsVirtual engineeringTechnology management systemsGlobal manufacturing (Students holding an international student visa are required to study full-time.)
(Students holding an international student visa are required to study full-time.)
Aims & Objectives:
The objectives of the Advanced Manufacturing Technology program are to provide students with an understanding of specific advanced and emerging manufacturing technologies and skills relating to the implementation of these technologies in modern industry, within both global and local contexts. It is expected that graduates will be sufficiently competent to direct the design and implementation of specific technologies and/or processes addressed during the course in the context of a particular organisation. The main objective of these advanced manufacturing technologies is to enhance manufacturing efficiency and productivity by: Increasing the flexibility of manufactureIncreasing equipment utilisationIncreasing the effectiveness of skilled labourMore effective adaptation of changing demandImproving the effectiveness of managementImproving the quality of productsImproving the quality of work lifeReducing lead time and costs of manufacturing The program meets the Faculty of Engineering and Industrial Sciences objectives for postgraduate education by: Providing career orientated educationDeveloping links with industry and knowledge transferUndertaking research which is applied and relevant to the needs of industryDeveloping lifelong learning skills The major aims of the Advanced Manufacturing Technology postgraduate program are to: Better meet the varying needs of local and international students in terms of: - offering the flexibility of a three-semester Master of Engineering program (preferred by most local and some international students) or a four-semester Master of Engineering Science program (preferred by most international students) and - offering a one-year Master of Technology program (preferred by local students)Support the university strategic intent to align research with teachingDiffuse knowledge gained in research programs to students and industryProvide a pool of potential students for research programs at the Faculty of Engineering and Industrial Science (FEIS) and Industrial Research Institute Swinburne (IRIS)Provide trained engineers to manufacturing industryDevelop links with industry through project workAllow undergraduate Mechanical Engineering students to undertake specialist elective units in final year The other principal aims of this postgraduate suite of programs include developing an understanding of: The principles of operation and characteristics of specific technologies and processes described in each unit of the courseThe context in which these technologies and processes can be implementedThe impact of these technologies and processes on other aspects of manufacturing operations and on products being manufacturedThe mechanisms by which the technologies and processes addressed impact on the productivity of manufacturing operationsThe impact of specific technologies on global manufacturing and competitivenessThe management tools required for effective operation of advanced manufacturing technologies
Course Structure:
Swinburne's Advanced Manufacturing Technology programs are a nested suite, offering students the opportunity to exit at the Graduate Certificate, Master of Technology, Master of Engineering or Master of Engineering Science stages.
Units of Study:
Discipline-specific units Choose a minimum of five of the following units:HIR504 Advanced CAD/CAMHIR505 Robotics in ManufacturingHIR506 Technology ManagementHIR507 Advanced Manufacturing Processes IHIR508 Intelligent Inspection SystemsHIR509 Computer Modelling, Analysis and Visualisation HES6120 Work Systems in Manufacturing HES6121 Six SigmaHES6122 Sustainable Design and Manufacture HES6123 Advanced Mechatronics HES6124 Nanofabrication Technologies HES6126 Rapid Manufacturing and Tooling HES6127 Surface Engineering HES6128 Advanced Metal Forming HES6129 Nonlinear FEM for Materials and Structures Recommended elective unitsHES6175 Project CostingHES6175D Project Costing* (distance) HES6720 Risk Perception and Analysis* (distance)HES6720 Risk Perception and Analysis HES6174 Resource Planning and Management HES6197 Principles of Sustainability HES6791 Project Management HES6798 Procurement and Risk Management in Projects HES6901 Reliability-based Maintenance Management of Engineering Assets HES7605 Research Design and Methodology* (distance)HES7605 Research Design and MethodologyHIT9010 Research Methods Master Project UnitsHIR513 Masters Project (25 CP) HIR514 Masters Thesis (50 CP) Note: • All units are 12.5 credit points (CP) unless noted otherwise• * Delivered via distance education only• Addition elective units may be drawn from other postgraduate education programs and is subject to approval by the Program coordinator.• International students holding a student visa are required to study full-time.• Onshore international students can undertake no more than 25% of their course by online or distance education and may not study exclusively online/distance in any compulsory study period in accordance with government regulation.
Career Opportunities:
The course offers the opportunity for employment with manufacturing companies intending to implement different levels of advanced manufacturing technologies. Graduates may find employment as design engineers, manufacturing engineers, production engineers, engineering managers, systems engineers, or research and development engineers in companies such as automotive, appliances manufacturing and discrete manufacturing intending to adopt advanced manufacturing technologies to enhance the productivity and competitive advantage in the global market.
Professional recognition:
Completion of this course may assist graduates in meeting eligibility criteria for membership to various levels of Engineers Australia. Please refer to Engineers Australia website for full details.
Graduate Attributes:
The program intends that it will assist its graduates in obtaining the Swinburne graduate attributes and that they will be: Capable in their chosen professional, vocational or study areasEntrepreneurial in contributing to innovation and development within their business, workplace or communityEffective and ethical in work and community situationsAdaptable and able to manage changeAware of local and international environments in which they will be contributing (e.g. socio-cultural, economic, natural) As well as: Provide appropriate evidence of advanced knowledge about a specialist body of theoretical and applied topicsDemonstrate a high order of skill in analysis, critical evaluation and/or professional application through the planning and execution of project work or a piece of scholarship or researchDemonstrate creativity and flexibility in the application of knowledge and skills to new situations, to solve complex problems and to think rigorously and independently
Entry Requirements:
Admission requirements are as follows: A four year degree program in mechanical, manufacturing, electrical or electronic engineering from a recognised university for engineering education. Candidates with other tertiary qualifications and relevant industry experience will also be consideredProficiency in computer programmingA familiarity with the unit offerings and expected outcomes of courseUnderstanding of possible career paths after completion of course
Recognition of Prior Learning:
Recognition of Prior Learning (RPL) is a process where a student may be granted credit or partial credit towards a qualification in recognition of skills and knowledge gained through work experience, life experience and/or formal training. Students can apply for unit substitutions of up to 50 credit points for approved RPL, however, exemptions are not permitted in this course.Further details for students considering Higher Education courses: http://www.future.swinburne.edu.au/pathways/rpl/higher-ed/
Course Fees:
The total tuition fee is dependent upon the combination of units of study selected by the student. Fees are reviewed each year.For information about Swinburne's fees visit: www.swinburne.edu.au/fees
Application Procedure:
If you have all the information you need, you can apply directly by completing and submitting the Direct Application Form on the How To Apply website.
Further information:
Web: Enquire online Tel: 1300 ASK SWIN (1300 275 794) Email: postgrad@swinburne.edu.au Website: www.swinburne.edu.au/feis
