Explore a range of exciting possibilities with this entry-level qualification and build foundation skills for your future in electronic design, programming, or industrial design. The Certificate II in Autonomous Technologies is a Start TAFE Now (STN) in schools course.
February intakes open to Year 10 and 11 students. July intakes open to Year 10 students only, due to the 18-month duration.
Completion of the BKSB (Basic Key Skills Builder) online literacy and numeracy assessment prior to enrolment, unless the student has completed an equal or higher level course. It is highly recommended that students have attained a Sound Achievement (SA) result in year 10 numeracy and literacy subjects or equivalent prior to enrolling in this course. There are no other entry requirements.
Resources required: It is recommended that you have access to a reliable internet connection to access CQUniversity's online learning management system, and a computer with up-to-date software, including Microsoft Office and Adobe Acrobat Reader. This equipment and software is available for use at all CQUniversity locations.
CQUniversity online students must have access to a Windows 10 or 11 computer. Some tasks cannot be done on a Mac M1 computer. You will also require access to personal stationery and a USB or external hard drive (minimum 1TB).
Need to know: The course is 18 months (6 school terms) in duration. Compulsory face-to-face attendance is required 1-day per week at a CQUniversity campus.
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How to Apply | Please Enquire or Apply Now | ||||||||||||
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AQF Level | Level 2: Certificate II |
Domestic Students Tertiary Admission Centre Codes (TAC) Codes |
Not Applicable |
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International Students CRICOS Codes |
Not Applicable |
This course is an entry-level pathway program for school-based students and focuses on developing the skills needed to adapt to existing and new automated technologies introduced as a result of Industry 4.0. Graduates will demonstrate the knowledge and skills required to work in entry level roles within autonomous environments and to undertake further education pathways in a range of technical, engineering, trade and information communication technology, innovative thinking, networking and programming. You'll learn to understand the programming language Python and use some of the coding, programming and simulator technologies.
According to the Australian Government's Job Outlook service, job opportunities in this area are expected to experience strong growth with more than 17,700 positions expected by 2026.
Study Mode Definitions
*All study modes may include Vocational placement and/or work integrated learning.
Select a course structure below to view the delivery details, including the different study modes offered for each structure.
6 school terms (18-months)
Core | ||||
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ICTPRG302 | Apply introductory programming techniques | More Information | Training.gov Details | |
MSMSUP390 | Use structured problem-solving tools | More Information | Training.gov Details | |
MSMWHS200 | Work safely | More Information | Training.gov Details | |
VU22324 | Build a simple network and establish end to end connectivity | More Information | Training.gov Details | |
VU22338 | Configure and program a basic robotic system | More Information | Training.gov Details | |
NAT10935009 | Conduct a basic autonomous technology project | More Information | Training.gov Details | |
NAT10935008 | Use basic positioning technology | More Information | Training.gov Details | |
NAT10935007 | Prepare basic programs for programmable logic controllers (PLCs) for autonomous applications | More Information | Training.gov Details | |
NAT10935006 | Configure autonomous embedded systems | More Information | Training.gov Details | |
NAT10935004 | Design basic logic ladder diagrams for autonomous electric control circuits | More Information | Training.gov Details | |
NAT10935003 | Design basic fluid power logic diagrams for autonomous systems | More Information | Training.gov Details | |
NAT10935002 | Handle technical communication in autonomous environments | More Information | Training.gov Details | |
NAT10935001 | Work effectively in autonomous environments | More Information | Training.gov Details | |
NAT10935005 | Produce a documentation suite for autonomous systems | More Information | Training.gov Details | |
Elective | ||||
ICTNWK308 | Determine and action network problems | More Information | Training.gov Details | |
MSMWHS201 | Conduct hazard analysis | More Information | Training.gov Details |
Unit Code | Unit Name |
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ICTPRG302 | Apply introductory programming techniques |
MSMSUP390 | Use structured problem-solving tools |
MSMWHS200 | Work safely |
VU22324 | Build a simple network and establish end to end connectivity |
VU22338 | Configure and program a basic robotic system |
NAT10935009 | Conduct a basic autonomous technology project |
NAT10935008 | Use basic positioning technology |
NAT10935007 | Prepare basic programs for programmable logic controllers (PLCs) for autonomous applications |
NAT10935006 | Configure autonomous embedded systems |
NAT10935004 | Design basic logic ladder diagrams for autonomous electric control circuits |
NAT10935003 | Design basic fluid power logic diagrams for autonomous systems |
NAT10935002 | Handle technical communication in autonomous environments |
NAT10935001 | Work effectively in autonomous environments |
NAT10935005 | Produce a documentation suite for autonomous systems |
ICTNWK308 | Determine and action network problems |
MSMWHS201 | Conduct hazard analysis |
18 months
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Project |
Written/Electronic Assessment |
Practical Task |
RPL |