Graduate Certificate in Engineering (Smart Instrumentation)
ObjectivesThe primary aim of this course is to provide advanced studies to students with a degree in electronic engineering that has not included studies in Smart Instrumentation who would like to broaden their professional expertise or to specialise in that area. Learning outcomes The expected learning outcomes for the degree include: * knowledge of the core Engineering aspects of Smart Instrumentation and Control; * an advanced level of knowledge of the application of Electronic Engineering in the area of Smart Instrumentation; and * an appreciation of the requirements and issues involved in Smart Technical applications.
Entry requirementsApplicants normally must hold an approved undergraduate Engineering degree with appropriate electronic content, or equivalent qualification from an approved tertiary institution. An applicant who has not previously studied electronics may be required to undertake appropriate bridging studies. The Faculty Board may, under certain circumstances and subject to specific conditions, admit others who can show evidence of fitness for candidature. The Graduate Certificate in Engineering (Smart Instrumentation) is not available to graduates of the Bachelor of Engineering (Computer and Electronic), Bachelor of Engineering (Robotics), or of equivalent undergraduate courses from other tertiary institutions. Graduates of these degrees or similar may apply for admission to the Master of Engineering (Smart Instrumentation).
Academic titleGraduate Certificate in Engineering (Smart Instrumentation)
Course descriptionThe Graduate Certificate in Engineering (Smart Instrumentation) is an 18-unit program offered by the School of Computer Science, Engineering and Mathematics, within the Faculty of Science and Engineering on a Commonwealth Supported basis.
"Smart Instrumentation" refers to the increasing range of devices that display some form of "intelligence" whether by being self-monitoring (instrumentation), providing self-initiated responses and self-moderating behaviour (control) or having (wireless) mobility. This includes devices such as a mobile phone through to robotics through to "intelligent" structures that self-monitor and self-control temperature, vibrations etc.
The course articulates with the Graduate Diploma in Engineering (Smart Instrumentation) and the Master of Engineering (Smart Instrumentation), and the sequentially developed topics allow progression through the three awards.
PROGRAM OF STUDY [November, 2008]
To qualify for the Graduate Certificate in Engineering (Smart Instrumentation), a student must complete 18 units with a grade of P or NGP or better in each topic, according to the program of study below.
18 units chosen from the following list, of which at least 15 units must be selected from the ENGR topics #:
ENGR8130
Real Time Control Systems
6
ENGR8131
Communications Systems GE*
3
ENGR8501
Smart Sensors and Actuators
6
ENGR8502
Advanced Image Processing
6
ENGR8503
Autonomous Systems
6
ENGR8504
Embedded Systems Project
6
ENGR8542
Embedded Systems Architectures
6
ENGR8565
Digital Image Processing GE*
3
ENGR8600
Advanced Signal Processing GE*
3
COMP7008
Information Retrieval and Visualisation **
3
COMP7011
Intelligent Database Systems
3
COMP7017
Java Card Development **
3
COMP7018
Mobile Applications ** ^^
3
COMP8251
Interactive Computer Systems GE **
6
COMP9001
Network Systems **
3
COMP9012
Computer Operating Systems **
3
# With the permission of the course coordinator, suitable other topics from the Master of Engineering (Biomedical), the Master of Information Technology or the Computer Science / Information Technology Honours topics may also be chosen.
* A student will not normally be permitted to enrol in the postgraduate topic if they have passed the related undergraduate topic.
** These topics are existing Honours or Masters COMP topics. They will require an adequate background in Java programming which if students do not have, they can obtain by completing (as part of the 18 units) the topic COMP8008 Computer Programming GE (3 units) or COMP8501 Advanced Programming A (3 units). This first topic is offered in intensive mode prior to the start of each semester as well as in semester 2.
^^ This topic may be undertaken cross-institutionally at University of South Australia with permission.