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Students
Tuition Fee
AUD 48,200
Per year
Start Date
Medium of studying
Duration
Program Facts
Program Details
Degree
Bachelors
Major
Electronics and Automation | Mechatronics | Robotics Engineering
Area of study
Engineering
Timing
Full time
Course Language
English
Tuition Fee
Average International Tuition Fee
AUD 48,200
Intakes
Program start dateApplication deadline
2024-09-01-
2024-03-01-
About Program

Program Overview


The Automation and Robotics Engineering program at the University of Western Australia is a four-year Bachelor of Engineering (Honours) degree. Combining aspects from engineering, software development, and mechatronics, it equips students with interdisciplinary knowledge and skills for the industry. This program prepares graduates for careers in manufacturing, healthcare, agriculture, transportation, research, and other sectors where automation and robotics are applied. Graduates are highly sought after for their expertise in designing, implementing, and operating automated systems and robotic solutions.

Program Outline


Degree Overview:

The Automation and Robotics Engineering program at the University of Western Australia is a four-year full-time Bachelor of Engineering (Honours) degree. It is designed to equip students with the skills and knowledge needed to become industry-ready automation and robotics engineers. The program combines relevant aspects from all engineering disciplines, software development, electronic hardware design, and mechatronics. It covers the principles, design, and operation of industrial robot manipulators, as well as intelligent autonomous robots and self-driving vehicles.


Objectives:

The program aims to:

  • Provide students with a broad interdisciplinary knowledge and skills that industry is looking for.
  • Develop students' ability to utilize advanced technical automation and robotics engineering skills in problem identification, simplification, analysis, planning, design, implementation, and operation.
  • Equip students with the ability to create innovative engineering solutions to solve complex issues by applying critical thinking skills and their knowledge of established engineering methods.
  • Develop students' deep practical understanding of the core concepts of automation and robotics engineering and extend this knowledge to more specialized areas such as advanced manufacturing, mechatronics, digital systems, microprocessors and embedded systems, factory automation, manufacturing, and automotive industries.
  • Enhance students' ability to work effectively in a team, bringing leadership and accountability to successfully solve real-world problems.

Outline:


Course Structure:

The program is structured across four levels, with core units and bridging units.


Level 1:

  • Core Units: CITS1401 Computational Thinking with Python, ELEC1303 Digital Systems, ENSC1004 Engineering Materials, GENG1000 Engineering Practice 1, GENG1010 Introduction to Engineering, MATH1011 Multivariable Calculus, MATH1012 Mathematical Theory and Methods

Level 3:

  • Core Units: AUTO3002 Mechatronics, CITS3011 Intelligent Agents, ELEC3016 Power and Machines, ELEC3020 Embedded Systems, GENG3000 Engineering Practice 3, GENG3402 Control Engineering, MECH3001 Mechanisms and Machines, MECH3424 Measurement and Instrumentation

Level 4:

  • Core Units: AUTO4507 Robot Manipulators and Automation, AUTO4508 Mobile Robots, CITS4402 Computer Vision, ELEC5506 Process Instrumentation and Control, GENG4411 Engineering Research Project Part 1, GENG4412 Engineering Research Project Part 2, GENG5010 Professional Engineering Portfolio, GENG5505 Project Management and Engineering Practice, GENG5507 Risk, Reliability and Safety

Assessment:


Assessment Methods:

The program utilizes a variety of assessment methods, including:

  • Assignments: These may include written reports, design projects, and coding exercises.
  • Presentations: Students may be required to present their work to their peers and instructors.
  • Practical Assessments: These may involve hands-on tasks, such as building and testing robots or programming automation systems.

Assessment Criteria:

The specific assessment criteria will vary depending on the individual unit and assessment task. However, common criteria may include:

  • Technical Accuracy: Students' work should be technically sound and demonstrate a thorough understanding of the relevant concepts and principles.
  • Problem-Solving Skills: Students should be able to apply their knowledge to solve real-world problems.
  • Communication Skills: Students should be able to communicate their ideas and findings clearly and effectively.
  • Teamwork Skills: Students should be able to work effectively in a team and contribute to the success of the group.

Teaching:


Teaching Methods:

The program employs a variety of teaching methods, including:

  • Lectures: These provide students with a foundation in the key concepts and principles of automation and robotics engineering.
  • Tutorials: These provide students with the opportunity to work through problems and practice their skills.
  • Laboratory Sessions: These provide students with hands-on experience in designing, building, and testing automation and robotics systems.
  • Project Work: Students work in teams to complete real-world projects, applying their knowledge and skills to solve practical problems.

Faculty:

The program is taught by experienced and qualified faculty members who are experts in their fields. They are committed to providing students with a high-quality learning experience and preparing them for successful careers in the automation and robotics industry.


Unique Approaches:

The program incorporates a number of unique approaches to enhance the learning experience, including:

  • Research Opportunities: Students have the opportunity to participate in research projects, working alongside leading academics and industry professionals.
  • Access to State-of-the-Art Facilities: Students have access to world-class facilities, including robotics labs, workshops, and computer labs.

Careers:


Potential Career Paths:

Graduates of the Automation and Robotics Engineering program are highly sought after by employers in a wide range of industries, including:

  • Manufacturing: Automation and robotics engineers are essential for designing and implementing automated systems in manufacturing plants.
  • Healthcare: Robotics is playing an increasingly important role in healthcare, with applications in surgery, rehabilitation, and patient care.
  • Agriculture: Automation and robotics are being used to improve efficiency and productivity in agriculture, with applications in planting, harvesting, and livestock management.
  • Transportation: Self-driving vehicles and other autonomous transportation systems are being developed by companies around the world, creating a growing demand for automation and robotics engineers.
  • Research and Development: Automation and robotics engineers are needed to develop new technologies and applications in these fields.

Opportunities:

Graduates of the program will have the opportunity to work in a variety of roles, including:

  • Automation Lead: Responsible for overseeing the design, implementation, and operation of automated systems.
  • Robotics System Developer: Responsible for developing software and hardware for robotic systems.
  • Robotics and Automation Engineer or Consultant: Provides technical expertise and advice on automation and robotics solutions.
  • Mechanical Engineer: Designs and develops mechanical systems, including robots and automation equipment.
  • Computer Systems Engineer: Designs and develops software and hardware for computer systems used in automation and robotics.

Outcomes:

Graduates of the program will be equipped with the skills and knowledge to:

  • Design, implement, and operate automated systems.
  • Develop innovative solutions to complex engineering problems.
  • Work effectively in teams and contribute to the success of the group.
  • Communicate their ideas and findings clearly and effectively.
  • Adapt to the rapidly evolving field of automation and robotics.

Other:

  • The program is offered as a degree-specific major for the Bachelor of Engineering (Honours).
  • Students can combine the Bachelor of Engineering (Honours) with other degrees, such as Bachelor of Arts, Bachelor of Commerce, Bachelor of Science, and Bachelor of Modern Languages.
  • The program includes a 12-week practicum and professional-development experience, which can be achieved by spending at least eight weeks in an engineering environment of the student's choice.
  • Students have the opportunity to study abroad at one of UWA's international partner universities.
  • The program is taught at EZONE UWA, a world-class innovation and technological hub for engineering and mathematical science students.
  • The program is accredited by Engineers Australia.
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About University
PhD
Masters
Bachelors
Diploma
Courses

The University of Western Australia


Overview:

The University of Western Australia (UWA) is a leading research-intensive university located in Perth, Western Australia. It is renowned for its high-quality teaching, strong research output, and commitment to graduate employability. UWA is consistently ranked among the top 100 universities globally and is the number one university in Western Australia for graduate employability.


Services Offered:

UWA offers a wide range of services to its students, including:

    Academic support:

    Tutoring, workshops, and study skills resources.

    Career services:

    Career counselling, job search assistance, and internship opportunities.

    Student wellbeing:

    Mental health support, counselling, and health services.

    Accommodation:

    On-campus and off-campus housing options.

    Sports and fitness:

    Access to state-of-the-art facilities and a variety of sports clubs.

    Clubs and societies:

    A vibrant student community with numerous clubs and societies catering to diverse interests.

    Study abroad and exchange:

    Opportunities to study at universities around the world.

Student Life and Campus Experience:

UWA provides a dynamic and engaging campus experience for its students. The university boasts a beautiful campus with modern facilities, green spaces, and a strong sense of community. Students can participate in a wide range of activities, including:

    Social events:

    Concerts, festivals, and other social gatherings.

    Sporting events:

    Supporting the university's sports teams.

    Volunteer opportunities:

    Contributing to the local community.

    Cultural events:

    Art exhibitions, theatre performances, and music concerts.

Key Reasons to Study There:

    World-class education:

    UWA offers a high-quality education with a focus on research and innovation.

    Excellent employability:

    Graduates from UWA are highly sought after by employers.

    Vibrant campus life:

    A diverse and engaging student community with numerous opportunities for personal and professional development.

    Beautiful campus:

    A picturesque campus with modern facilities and green spaces.

    Strong research focus:

    UWA is a leading research university with a strong commitment to innovation.

Academic Programs:

UWA offers a wide range of undergraduate and postgraduate programs across various disciplines, including:

    Arts and Humanities:

    History, Literature, Philosophy, Languages, and more.

    Science and Engineering:

    Mathematics, Physics, Chemistry, Biology, Engineering, and more.

    Business and Economics:

    Accounting, Finance, Marketing, Economics, and more.

    Health Sciences:

    Medicine, Dentistry, Nursing, Pharmacy, and more.

    Law:

    Juris Doctor, Bachelor of Laws, and other law programs.

Other:

UWA is committed to fostering a diverse and inclusive campus community. The university has a strong focus on Indigenous education and research, and offers a range of programs and support services for Indigenous students. UWA also has a strong international presence, with students from over 100 countries studying at the university.

Total programs
365
Average ranking globally
#136
Average ranking in the country
#8
Admission Requirements
  • Western Australian Certificate of Education (WACE) 2016 onwards: 80
  • All India Senior School Certificate (CBSE):
  • 11.5
  • Canadian High School (except Quebec):
  • 70
  • French Baccalaureate:
  • 12
  • Gao Kao (PR China NCEE)/750:
  • 525
  • GCE A-Levels:
  • 9
  • German Abitur:
  • 3.3
  • Hong Kong Diploma of Secondary Education:
  • 15
  • Indian Senior School Certificate (CISCE):
  • 60
  • Indonesian Sekolah Menengah Atas (SMA) - Pass of 65:
  • 79
  • International Baccalaureate Diploma (IB):
  • 26
  • Malaysian STPM:
  • 11
  • Monash University Foundation Year:
  • 270
  • NCUK Foundation Program:
  • 9
  • Norwegian Vitnemål:
  • 3.8
  • Singapore - Cambridge A Levels:
  • 8
  • South African National Senior Certificate:
  • 4.6
  • South Korean College Scholastic Ability Test (CSAT):
  • 330
  • Sweden Slutbetyg:
  • 15
  • Trinity College Foundation:
  • 300
  • Unified Examination Certificate (UEC):
  • 12
  • University of Western Australia College (UWAC) Foundation Program:
  • 66
  • US College Board Advanced Placements:
  • 8
  • US College Board SAT:
  • 1170
  • Western Australian Universities' Foundation Program (WAUFP):
  • 60
  • Admission Requirements:
  • Mathematics Methods ATAR:
  • At least one of the following three subjects: Mathematics Specialist ATAR, Chemistry ATAR or Physics ATAR. All four subjects are recommended. If you do not have all four subjects you will need to complete extra units in first year, which may mean taking additional units to meet the course requirements. Minimum overall IELTS score of 6.5, with no band less than 6.0.

Language Proficiency Requirements:

  • English competency: Minimum overall IELTS score of 6.5, with no band less than 6.0.
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