Biomedical Engineer - ANZSCO 233913

Biomedical Engineer applies knowledge and methodology of physics, engineering, mathematics, computing, physical chemistry and materials science to problems in biology and the treatment and prevention of human disease. By designing and creating medical devices, equipment, and systems, they strive to enhance patient care and improve overall outcomes. Registration or licensing may be necessary to practise in this field.

Specialisation

  1. Bioengineer
  2. Clinical Engineer
  3. Medical Engineer

ANZSCO Structure

Major Group 2 - Professionals
Sub-Major Group 23 - Design, Engineering, Science and Transport Professionals
Minor Group 233 - Engineering Professionals
Unit Group 2339 - Other Engineering Professionals

Job Outlook

Weekly Earnings $2155
Work full time hours 90%
Growth expected in the next 5 years Strong
Gender share 15% FEMALE
Average full-time 42 Hours
Skill level rating Very High Skills
Average Age Male: 40.4
Female: 37.3
Persons: 40.4
Employed 880

[See: Australian Bureau of Statistics 233913 Biomedical Engineers - Employee Earnings and Hours, Australia, May 2016]

Required Skill Level For Biomedical Engineer Migration

Skill level: 1

In Australia, a Biomedical Engineer at ANZSCO Skill Level 1 typically requires a bachelor's degree or higher qualification along with a minimum of five years of relevant experience. This skill level is associated with senior or managerial positions that involve intricate technical tasks, decision-making, and leadership responsibilities. It reflects the advanced knowledge and expertise needed to excel in complex biomedical engineering roles.

Skill Assessment Authority

For Australia

In Australia, the Skills Assessment Authority for Biomedical Engineers is Engineers Australia. Engineers Australia conducts a Competency Demonstration Report (CDR) assessment to determine whether an applicant's engineering qualifications and work experience are equivalent to Australian standards.

For New Zealand

In New Zealand, Engineering New Zealand assesses the skills, qualifications, and experience of Biomedical Engineers who wish to migrate to New Zealand under the Skilled Migrant Category.

Skill Priority in 2023

The Skills Priority List (SPL) provides a detailed view of occupations that are facing a shortage at a national level and within different states and territories in Australia. It also gives information about the expected future demand for different professions.

  • S: Shortage
  • NS: No Shortage
  • R: Regional Shortage
National NSW VIC QLD SA WA TAS NT ACT Future Demand
S S S S S S NS NS NS At Economy-Wide Average

Potential Visa Pathways For Biomedical Engineer ANZSCO Code 233913

ANZSCO OCCUPATION SKILLS ASSESSMENT 189 190 485 491 (STATE) 491 (FAMILY) 186 (DIRECT) 407 (TRAINING) 494 (REGIONAL SPONSORED) 482 (TSS MEDIUM TERM)
233913 Biomedical engineer Engineers Australia

2022/12/08 Round Results

Lowest Points Score Invited subclass 189 (Points-tested stream) Lowest Points Score Invited Subclass 491 (Family Sponsored Regional)
Offshore: 85 Points Offshore: N/A
Onshore: 85 Points Onshore: N/A

2022/10/06 Round Results

Lowest Points Score Invited subclass 189 (Points-tested stream) Lowest Points Score Invited Subclass 491 (Family Sponsored Regional)
Offshore: 65 Points Offshore: 65 Points
Onshore: N/A Onshore: N/A

Unit Group 2339: Other Engineering Professionals

Occupations In Unit Group 2339

- Aeronautical Engineer 233911

- Agricultural Engineer 233912

- Biomedical Engineer 233913

- Engineering Technologist 233914

- Environmental Engineer 233915

- Naval Architect (Aus) / Marine Designer (NZ)

- Engineering Professionals nec 233999

The ANZSCO code categorises Unit Group 2339 as "Other Engineering Professionals". This group includes engineering professionals who are not classified under specific unit groups such as civil, mechanical, electrical, or chemical engineering. It encompasses various professions, including Aeronautical Engineer, Agricultural Engineering, Biomedical Engineering, Engineering Technologists, and Environmental Engineer. These professionals possess specialised skills and expertise in their respective engineering fields, contributing to a diverse range of industries and projects.

Source: Australian Bureau of Statistics and Department of Immigration and Border Protection

Tasks to Perform for Biomedical Engineer

  • Design and develop medical devices, equipment, and systems for diagnosis, treatment, and prevention of diseases.
  • Conduct research and analysis to identify new techniques and technologies in the field of biomedical engineering.
  • Collaborate with healthcare professionals and scientists to understand their needs and develop innovative solutions.
  • Test and evaluate the performance and safety of biomedical devices and equipment.
  • Provide technical support and training to medical personnel regarding the use and maintenance of biomedical equipment.
  • Ensure compliance with regulatory standards and guidelines in the design and development of medical devices.

English Requirement

Test Minimum Score Requirement
IELTS 6 (Learning, Reading, Writing), 7 in Speaking, 7 overall
OET Minimum grade B in all sections
TOEFL iBT Learning: 12, Reading: 13, Writing: 21, S: 23, Overall: 93
PTE Academic 50 (Learning, Reading, Writing), 65 in Speaking, 65 overall

Exceptions

  1. Individuals who have acquired relevant skills and knowledge through work experience, training, or other means may be eligible to apply for RPL to have their skills assessed and recognized towards meeting the standard requirements for a biomedical engineer.
  2. Individuals who hold qualifications from overseas may be required to have their qualifications assessed by a relevant assessing authority to determine their comparability to Australian standards.
  3. Some States and Territories in Australia require biomedical engineers to be registered with the relevant professional body. Individuals may need to meet specific education and work experience requirements to be eligible for registration.

Contact Us

As a service provider for biomedical engineers, we at CDR Report Writer can offer comprehensive guidance and support to help you with your specific needs. Whether you require assistance in medical device design, research and development, regulatory compliance, or technical training, we are here to help. Our expertise in biomedical engineering enables me to provide tailored solutions that meet your requirements and contribute to the advancement of healthcare technology. Contact Us today for personalised assistance and reliable support to enhance your biomedical engineering endeavours.

Frequently Asked Questions

Frequently Asked Questions

To become a Biomedical Engineer in Australia, you typically need a bachelor's degree in Biomedical Engineering or a related field. Some positions may require a higher level of education, such as a master's or doctoral degree.

Biomedical Engineers have promising career prospects in Australia. They can work in various sectors, including medical device manufacturing companies, hospitals, research institutions, and government agencies. The demand for Biomedical Engineers is expected to grow due to advancements in healthcare technology and the ageing population.

While not mandatory, obtaining professional certifications can enhance career opportunities for Biomedical Engineers in Australia. One notable certification is the Certified Clinical Engineer (CCE) offered by the Australasian College of Physical Scientists and Engineers in Medicine (ACPSEM).

Biomedical Engineers should have a strong foundation in engineering principles, problem-solving abilities, and analytical skills. They should also possess knowledge in biology, physiology, and medical sciences. Additionally, proficiency in computer programming, data analysis, and project management is beneficial.

Yes, Biomedical Engineers can specialise in various areas based on their interests and career goals. Some common specialisations include medical imaging, biomaterials, biomechanics, clinical engineering, and rehabilitation engineering. Specialising in a specific area allows engineers to develop expertise and contribute to advancements in that field.