On Campus Bachelor of Science (Industrial Automation Engineering)
Engineering Institute of Technology
Key Information
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Campus location
Perth, Australia
Languages
English
Study format
On-Campus
Duration
36 months
Pace
Full time
Tuition fees
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Application deadline
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Earliest start date
29 Jul 2024
Introduction
Course at a Glance
- Code: BIAOCP
- Course Length: 3 years full-time
- Course taught in English
Programme Details
Due to rapidly evolving technology, industrial processes are becoming increasingly automated. Previously mechanized systems, which required human intervention, now use computerized control systems for higher accuracy, precision, and cost-effectiveness. As industrial automation continues to develop with technological advancements, it is essential that prospective engineers graduate with skills that can be applied within the industry. Our Bachelor of Science (Industrial Automation Engineering) provides you with cutting-edge skills that are valuable in the workplace.
With this qualification, you will have acquired the essential knowledge which underpins both this and other fields of engineering. More importantly, you will have become an industrial automation technologist.
Accreditation
Like all Australian higher education providers and universities, EIT programmes are accredited by the exacting standards of the Australian Government’s Tertiary Education Quality and Standards Agency (TEQSA). This bachelor’s degree is provisionally accredited by Engineers Australia under the Sydney Accord. It is internationally recognized under the International Engineering Alliance (IEA) accords and the various signatories.
Career Opportunities
Potential Job Outcomes
Graduates will be employable as technologists working in a wide range of manufacturing, industrial, chemical, military, electrical, mineral processes, and mining industries.
Potential job roles include engineering and management positions in the following areas of expertise:
- Process control, commissioning and production management
- Plant, factory and building automation
- Programmable Logic Controllers (PLCs), Distributed Control Systems (DCSs) and SCADA
- Industrial design and consultation
- Supply chain management, quality assurance, and sales
- Operations, maintenance, field services, and technical support
- Controls, instrumentation, and robotics
Gallery
Curriculum
Programme Structure
The degree consists of a combination of core units, sub-discipline specific ‘stream’ units, industrial work experience, and a final year project. The programme duration is three years full-time. We deliver units over two semesters per year, and you will take 4.5 units per semester. There will be a short mid-semester break and extended breaks between semesters.
Year One
Unit Code | Subjects | Credit Points |
BSC101C | Engineering Mathematics 1 (Core) | 3 |
BSC102C | Electrical Circuit Theory and Analysis (Core) | 3 |
BSC103C | Engineering Dynamics and Mechanics (Core) | 3 |
BSC203C | Engineering Design and Drawing (Core) | 3 |
BSC109C (Part A) | Industrial Experience Research Project | 0 |
BSC104C | Engineering Mathematics 2 (Core) | 3 |
BSC201C | Engineering Programming (Core) | 3 |
BIA106S | Principles of Chemical Engineering | 3 |
BSC107C | Physics and Chemistry for Engineers (Core) | 3 |
BSC109C (Part B) | Industrial Experience Research Project | 3 |
BSC110C | Industrial Experience | 0 |
Year Two
Unit Code | Subjects | Credit Points |
BIA108S | Process Instrumentation and Control | 3 |
BSC105C | Mechanics of Machines (Core) | 3 |
BSC202C | Engineering Mathematics 3 (Core) | 3 |
BIA205S | Electrical Control Circuits and PLC Programming | 3 |
BSC302C (Part A) | Project Planning, Management and Costing (Core) | 0 |
BIA204S | Ancillary Support Systems | 3 |
BIA206S | Communications and Networks | 3 |
BIA208S | Safety Systems Engineering | 3 |
BIA209S | Analysis and Modelling of Dynamics Systems | 3 |
BSC302C (Part B) | Project Planning, Management and Costing (Core) | 3 |
BSC210C | Industrial Experience | 0 |
Year Three
Unit Code | Subjects | Credit Points |
BIA207S | Automation Systems and Supervisory Control | 3 |
BIA301S | Communication Systems and Protocols | 3 |
BIA303S | Embedded Systems Design | 3 |
BIA304S | Power and Drive Controls | 3 |
BSC305C (Part A) | Technology, Sustainability and Society (Core) | 0 |
BIA306S | Instrument and Control Engineering Practices | 3 |
BSC307C | Final Year Project (Industrial Automation Engineering) | 9 |
BSC305C (Part B) | Technology, Sustainability and Society (Core) | 3 |
Additional Mandatory Units
Unit Code | Subjects | Credit Points |
BXX001 | Hands-on Workshop 1 | 0 |
BXX002 | Hands-on Workshop 2 | 0 |
BXX003 | Hands-on Workshop 3 | 0 |
BXX004 | Hands-on Workshop 4 | 0 |
Work-Integrated Learning
EIT’s Bachelor of Science programmes require students to undertake 240 hours of paid or unpaid professional work-integrated learning. This can incorporate paid or unpaid internships, site visits, contributing to industry projects, and networking activities.
In undertaking an internship, students will interact with employees and become exposed to organizational policy and culture. You will familiarize yourself with organizational communication procedures, a variety of engineering disciplines, and obtain insight and practical aptitude in projects from the planning phase to completion.
If you already have some work experience in the relevant engineering field, you may apply to have credit granted by completing the associated recognition of prior learning form.
Time Commitment & Duration
Our bachelor’s degrees take three years to complete full-time. Full-time students will spend about 40 hours per week on the study. This includes attending tutorials.
Admissions
Scholarships and Funding
Several scholarship options are available. Please check the institute website for more information.
Program Tuition Fee
Student Testimonials
Program delivery
Our bachelor’s degrees take three years to complete full-time. Full-time students will spend about 40 hours per week on study. This includes attending tutorials.