Bachelor of Engineering (Robotics) / Master of Engineering (Smart Instrumentation)

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Bachelor of Engineering (Robotics) / Master of Engineering (Smart Instrumentation)

  • Objectives The course has been designed to provide graduates with: * a strong foundation in both the theoretical and the practical aspects of engineering, particularly those relevant to the systematic development of computer and electronic systems, robotics, and smart instrumentation and control systems, * an awareness of social, economic and environmental aspects of engineering, * an understanding of professional and ethical responsibilities and a commitment to them, * high-level written and oral communication skills, * structured engineering work experience, * the ability to work professionally as an individual and as a member of multi-disciplinary teams, * an understanding of the need to undertake lifelong learning and the capacity to do so, * preparation for future management roles as professional engineers, * a deep understanding of research issues in a given area of investigation, * well-developed analytical and critical thinking skills appropriate to research, and * project management skills appropriate to research-oriented investigation.Learning outcomesOn completion of the award, students will be able to: * competently use professional skills and knowledge in the systematic development of complex digital and analog electronic systems including embedded computer systems, monitoring and robotic systems, with a distinguishing emphasis on the hardware-software interface, * apply their skills and knowledge in a professionally responsible manner, * communicate effectively with other engineers and the wider community using a wide range of communication technologies, * work professionally as an individual and in a team, * develop engineering solutions appropriate to the social, political, economic and environmental contexts in which they are applied, * engage in the process of continuing learning needed to retain the necessary level of professional skills and knowledge in the areas of computer and electronic systems engineering, * contribute successfully to project management, and, * undertake an independent research project competently.
  • Entry requirements Domestic students Prerequisites: Mathematical Methods or Mathematical Studies(SACE Stage 2 or equivalent).Knowledge of SACE Stage 2 Physics is assumed. You can qualify for undergraduate courses through: * year 12 qualifications * mature age entry (STAT) * TAFE/VET qualifications * higher education transfers. Flinders also offers a range of special access schemes.International StudentsPrerequisites: Mathematical Methods or Mathematical Studies(SACE Stage 2 equivalent).Knowledge of SACE Stage 2 Physics is assumed.English language requirements
  • Academic title Bachelor of Engineering (Robotics) / Master of Engineering (Smart Instrumentation)
  • Course description The Bachelor of Engineering (Robotics) / Master of Engineering (Smart Instrumentation) is a double degree combination that allows high achieving students to undertake a 5 year course of study in robotics and smart instrumentation

    This course combines electronics, computer control, signal processing, and programming in the design, development and operation of robots, and their integration with other systems in the work environment.

    It also includes advanced topics in areas such as embedded systems, image processing, real-time control and smart sensors.

    The University has also developed close relationships with a number of private sector and government organisations and all students undertake Flinders' nationally recognised 20 week industry placement.

    What is Robotics Engineering?

    Robotics is the science and technology of the design, development and application of robots in fields as diverse as manufacturing, mining and medicine.

    As robots increasingly take on repetitive and hazardous tasks in an ever expanding number of applications, the science of robotics is at the leading edge of modern economic and social life.
    Why study Robotics Engineering at Flinders?

        * All our Engineering awards have been designed in close collaboration with industry in order to meet future development needs. Students gain specialist knowledge in key areas and an integrated tool kit of skills that will enable them to meet the technical criteria required by industry and to engage professionally with on-going technical developments.

        * A distinctive feature of our Engineering awards is the nationally recognised industry placement program. More than 100 local, national and international organisations support the program, which provides students with 20 weeks of structured industrial work experience.

        *

          Students complete their final year of study having already gained a first-hand understanding of the role of the graduate engineer. They graduate with a proven on-the-job performance and many go on to work full-time with the company that provided their placement, or with another in the same industry.
        *

          The first year of this award is similar to the first year of our other Engineering awards allowing students to transfer between awards with minimal loss of time. For students without the necessary prerequisites, the Bachelor of Engineering Science award provides a pathway into this award.

        * We have an international reputation for our teaching, student support programs/services and research.

    Professional recognition

    This is a new course. It is expected that it will meet the requirements for accreditation by Engineers Australia and be recognised internationally.
    Career opportunities

    What can I do with my Bachelor of Engineering (Robotics), Master of Engineering (Smart Instrumentation) degree?
    Study a language

    Flinders also offers all students the opportunity to major in a language in conjunction with any undergraduate course. The Diploma in Language is designed to provide students with competence in a chosen language that adds greater portability to their qualifications. You will complete a total of one extra year of study and graduate with both your chosen degree and the Diploma in Language. You can apply for this at time of enrolment.

    The double degree program Bachelor of Engineering (Robotics)/Master of Engineering (Smart Instrumentation) requires five years of full-time study (or the equivalent part-time).

    The course is offered by the School of Computer Science, Engineering and Mathematics, within the Faculty of Science and Engineering.

    PROGRAM OF STUDY  [November, 2008]

    To qualify for the combined degrees Bachelor of Engineering (Robotics)/Master of Engineering (Smart Instrumentation) a student must complete 180 units with a grade of P or NGP or better in each topic, according to the program of study below.

    Not all topics are necessarily available in a given year.

    Students who have successfully completed the first three levels of the program may exit with the Bachelor of Engineering Science.

    A student who completes 108 units with a GPA of less than 5 will not be permitted to continue in this combined award. Such a student will be permitted to transfer to the ordinary Bachelor of Engineering (Robotics) award.

    First Year

    36 units comprising:

    Semester 1

    ENGR1201
        

    Digital Electronics 1
        

    4.5

    ENGR1401
        

    Professional Skills for Engineers
        

    4.5

    MATH1121
        

    Mathematics 1A *
        

    4.5

        

    Elective
        

    4.5

    Semester 2

    COMP1102
        

    Computer Programming 1
        

    4.5

    PHYS1332
        

    Engineering Physics
        

    4.5

    ENGR1202
        

    Analog Electronics 1
        

    4.5

    MATH1122
        

    Mathematics 1B *
        

    4.5

    * Students who have achieved a mark of at least 18 in SACE Stage 2 Specialist Mathematics, or at least 6 in International Baccalaureate Mathematics HL, have the option of doing the corresponding topics MATH1141 Advanced Mathematics 1A (instead of MATH1121) and MATH1142 Advanced Mathematics 1B (instead of MATH1122).

    Second Year

    36 units comprising:

    Semester 1

    ENGR2131
        

    Computer Organisation and Design
        

    6

    ENGR2171
        

    Microprocessors
        

    3

    ENGR2211
        

    Electronic Circuits
        

    3

        

    Plus either:
        

    COMP2221
        

    Computer Programming 2, OR
        

    6

    ENGR2181
        

    Engineering Programming, AND
        

    3
        

    Elective
        

    3

    Semester 2

    ENGR2112
        

    Signals and Systems
        

    6

    ENGR2182
        

    Design and Automation
        

    3

    ENGR2202
        

    Analog Electronics 2
        

    6

    ENGR2102
        

    Fundamentals of Robotics
        

    3

    Third Year

    36 units comprising:

    Semester 1

    ENGR3103
        

    Robotic Systems
        

    3

    ENGR3401
        

    Signal Processing
        

    6

    ENGR3504
        

    Control Systems Theory
        

    3

    ENGR3508
        

    Engineering Project Management
        

    6

    Semester 2

        

    Upper level Selectives from COMP, ENGR, MATH and STAT topics from the list below
        

    18

    Fourth Year

    36 units comprising:

    Semester 1

    ENGR3131
        

    Communication Systems 3
        

    3

    ENGR4504
        

    Microprocessor Systems Development
        

    3

    ENGR8130
        

    Real Time Control Systems
        

    6

    ENGR8586
        

    Digital Image Processing GE
        

    3

        

    Plus 3 units of Smart Instrumentation Selectives from the list below
        

    3

    Semester 2

    ENGR3402
        

    Engineering Practicum **
        

    12

    ENGR3509
        

    Professional Engineering Practice **
        

    6

    ** With the permission of the Course Coordinator, students may instead undertake ENGR3403 Engineering Work Experience (0 units - may be done any time, typically over the summer) and 18 units of upper-level selectives from COMP, ENGR, MATH and STAT topics.

    Fifth Year

    36 units comprising:

    ENGR9000
        

    Research Methods for Engineering
        

    3

    ENGR9001
        

    Engineering Masters Project §
        

    18

        

    Plus 9 units of Smart Instrumentation Selectives
        

    9

        

    Upper level COMP, ENGR, MATH or STAT topics from the lists below
        

    6

    § Students may also elect to do this topic over a year by enrolling in the topic ENGR9001A Engineering Masters Project (9/18 units) in two consecutive semesters.

    SMART INSTRUMENTATION SELECTIVES
    ENGR8131
        

    Communication Systems GE
        

    3

    ENGR8501
        

    Smart Sensors and Actuators
        

    6

    ENGR8502
        

    Advanced Image Processing
        

    6

    ENGR8503
        

    Autonomous Systems
        

    6

    ENGR8504
        

    Embedded Systems for Signal Processing
        

    6

    ENGR8542
        

    Embedded Systems Architectures
        

    6

    ENGR8600
        

    Advanced Signal Processing GE
        

    3

    COMP7019
        

    Embodied Conversational Agents
        

    3

    COMP8232
        

    Network and Operating Systems GE
        

    6

    COMP8251
        

    Interactive Computer Systems GE
        

    6

    COMP8331
        

    Intelligent Systems GE
        

    6

    Upper Level Selectives from COMP, ENGR, MATH and STAT topics: to be confirmed
    Contact the School of Computer Science, Engineering and Mathematics for further information.
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