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Course Information

Bachelor of Engineering (Instrumentation Control and Automation) Honours

Effective from 01-JAN-2022 : Code Y46

Instrumentation control and automation engineering is the integration of electrical, electronic and computing engineering with control engineering for the development of intelligent systems to automate monitoring, processing, and production in different engineering industries. Areas of study within instrumentation control and automation include analogue and digital electronics, computer-aided design and manufacturing, signal analysis, communication and networking, electrical machines, sensor technology, process control, automation, robotics, system design and development, and project management. Graduates of the course will be conversant in electrical and electronic engineering and have specialist skills in design, development and management of advanced control and automation systems. The course focuses on the development of knowledge and skills relevant to professional engineering practice and, along with a sound theoretical base, includes strong elements of practical problem-solving, teamwork and project development. As a result, as well as having multiple technical and transferable skill competencies, graduates will have strong analytical skills and the ability to lead complex projects.

Disclaimer

This course information may be updated and amended immediately prior to semester. To ensure you have the correct outline, please check it again at the beginning of semester. In particular please check the course requirements and the unit and unit set offerings, as these differ according to course delivery location.

Work Experience Requirement

Students are required to undertake a minimum of 12 weeks practical work experience in an engineering industry environment. This will normally be undertaken during a vacation period.

Enrolment process

While the Engineering Practicum unit (ENS5111) appears in Year 4 of the course structure, students can complete the practicum requirements at any point after completing at least 180 credit points in the course. The unit is not available for direct enrolment, instead once the Practicum requirements have been fulfilled, students will need to lodge their Practicum documents through the Application for Credit and Recognition of Prior Learning online application form in order to have the completion of this unit recognised on their academic record. The School’s Practicum coordinator should be contacted for advice on completion of the Practicum.

Course Learning Outcomes

Demonstrate advanced knowledge of the underpinning natural and physical sciences and in depth understanding of specialist bodies of knowledge within the instrumentation control and automation engineering disciplines.
Think critically, and apply established engineering methods and research skills to complex engineering problem solving.
Apply systematic engineering synthesis and design processes to conduct and manage instrumentation control and automation engineering projects, with some intellectual independence.
Demonstrate conceptual understanding of the mathematics, numerical analysis, statistics and computer and information sciences which underpin the instrumentation control and automation engineering disciplines and fluently apply engineering techniques, tools and resources.
Demonstrate clear and coherent oral and written communication in professional and lay domains.
Demonstrate a global outlook and knowledge of contextual factors impacting the engineering discipline, including respect for cultural diversity and indigenous cultural competence.
Demonstrate effective team membership and team leadership to implement engineering projects according to relevant standards of ethical conduct, sustainable practice and professional accountability.
Demonstrate responsibility for own learning, professional judgement and an understanding of the scope, principles, norms, accountabilities and bounds of contemporary engineering practice.

Professional Recognition

Course

This course has been Accredited by: Engineers Australia.

Admission requirements

Admission requirement (Band 4)

All applicants must meet the academic admission requirements for this course. The indicative or guaranteed ATAR is as published (where applicable) or academic admission requirements may be satisfied through completion of one of the following:

AQF Diploma or equivalent;
Undergraduate Certificate;
Successfully completed 0.5 EFTSL of study at bachelor level or higher at an Australian higher education provider (or equivalent);
Special Tertiary Admissions Test;
University Preparation Course;
Indigenous University Orientation Course; or
Aboriginal University Readiness Assessment.

English Language requirement (Band 3)

English competency requirements may be satisfied through completion of one of the following:

Year 12 English ATAR/English Literature ATAR grade C or better or equivalent;
Special Tertiary Admissions Test;
IELTS Academic Overall band minimum score of 6.0 (no individual band less than 6.0);
Successfully completed 1.0 EFTSL of study at bachelor level or higher in the UK, Ireland, USA, NZ or Canada;
University Preparation Course;
Indigenous University Orientation Course;
Aboriginal University Readiness Assessment;
AQF Diploma, Advanced Diploma or Associate Degree;
Successfully completed 0.375 EFTSL of study at bachelor level or higher at an Australian higher education provider (or equivalent); or
Other tests, courses or programs as defined in the Admissions Policy.

Course Specific Admission Requirements

All applicants are required to have Mathematics: Methods ATAR, with equivalents considered, and Physics ATAR or Engineering Studies ATAR or Chemistry ATAR or Mathematics: Specialist ATAR, with equivalents considered. It is desirable that all applicants have Physics ATAR or Engineering Studies ATAR, with equivalents considered, students without Physics ATAR or Engineering Studies ATAR may need to take a bridging unit in the first year of their studies.

Portfolio pathway applications are not accepted for this course.

Course Duration

Full Time: 4 Years
Part Time: 8 Years

Course Delivery

Joondalup: Full Time, Part Time

Course Coordinator

A/Prof Alexander Mark RASSAU

Course Structure

Students are required to complete 30 Core units, 2 Elective units and a Practicum unit.

Year 1 - Semester 1
Unit Code	Unit Title	Credit Points
ENS1154	Introduction to Engineering	15
ENS1115	Materials and Manufacturing 1	15
ENM1102	Engineering Drawing and Computer Aided Design	15
MAT1250	Mathematics 1	15

Year 1 - Semester 2
Unit Code	Unit Title	Credit Points
ENS1101	Engineering Mechanics	15
ENS1180	Introduction to Energy and Resource Engineering	15
ENS1253	Electrical Engineering 1B	15
MAT1251	Mathematics 2	15

Year 2 - Semester 1
Unit Code	Unit Title	Credit Points
ENM2104	Instrumentation and Measurement	15
ENS2456	Digital Electronics	15
ENS2159	Engineering Innovation and Ethics	15
ENS5170	Engineering Systems	15

Year 2 - Semester 2
Unit Code	Unit Title	Credit Points
CSP2151	Programming Fundamentals	15
ENS5230	Electrical Machines and Transformers	15
ENS3553	Signals and Systems	15
ENS2457	Analog Electronics	15

Year 3 - Semester 1
Unit Code	Unit Title	Credit Points
ENS3555	Communication Systems 1	15
ENS3551	Electrical Networks	15
ENS3554	Data Communications and Computer Networks	15
ENS5253	Control Systems	15

Year 3 - Semester 2
Unit Code	Unit Title	Credit Points
ENS2257	Microprocessor Systems	15
ENS5191	Electrical Engineering Design	15
ENS5240	Industrial Control	15
Elective Unit		15

Note: Students who receive a WAM of 70 per cent or above at the end of their third year of study will be invited to complete a graded Honours degree by taking the two Honours Thesis units in place of the standard project units in their fourth year. Students below this cut-off, or who decline the offer to undertake the Honours Thesis, will graduate with an ungraded Honours degree.

Year 4 - Semester 1
Unit Code	Unit Title	Credit Points
ENS5111	Engineering Practicum
ENS5447	Propagation and Antennas	15
ENS5130	Advanced Industrial Control	15
ENS5360	Power Electronics	15
ENS4152 ^	Project Development	15
Or
ENS5145 ^	Engineering Honours Thesis 1	15

Note: Students undertaking the graded Honours pathway should enrol into ENS5145 Engineering Honours Thesis 1 in place of ENS4152 Project Development.

Year 4 - Semester 2
Unit Code	Unit Title	Credit Points
ENS5543	Engineering Management	15
ENS5209	Process Control	15
ENS4253 ^	Engineering Project	15
Or
ENS5146 ^	Engineering Honours Thesis 2	15
Elective Unit		15

Note: Students undertaking the graded Honours pathway should enrol into ENS5146 Engineering Honours Thesis 2 in place of ENS4253 Engineering Project.

RECOMMENDED ELECTIVES
Unit Code	Unit Title	Credit Points
ENS2110	Materials and Manufacturing 2	15
ENS2160	Thermodynamics	15
ENM3218	Fluid Mechanics	15
ENS3206	Power Systems 1	15
ENS3556	Wireless Communication	15
ENS2113	Engineering Dynamics	15
ENS5251	Digital Signal Processing	15
ENS5444	Telecommunication Networks	15
ENS5442	Robotics 1	15
ENS5542	Communication Systems 2	15
ENS5445	Sustainability and Renewable Energy	15
ENS5562	Renewable Energy Conversions 1	15
MAT3486	Multivariate Calculus	15

Note: Electives chosen from outside this list must be approved by the Course Coordinator.

^ Core Option

Disability Standards for Education (Commonwealth 2005)

For the purposes of considering a request for Reasonable Adjustments under the Disability Standards for Education (Commonwealth 2005), inherent requirements for this subject are articulated in the Unit Description, Learning Outcomes and Assessment Requirements of this entry. The University is dedicated to provide support to those with special requirements. Further details on the support for students with disabilities or medical conditions can be found at the Access and Inclusion website.

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Handbook : Course informationEdith Cowan University