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31 Universities related to Biomedical Engineering found in Australia

1-10 of 31
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Campus - parkville, Australia
University Rank - #1
Address - Creswick VIC 3363, Australia
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Campus - brisbane-cbd, Australia
University Rank - #2
Address - 293 Queen St, Brisbane City QLD 4000, Australia
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Campus - st-lucia, Australia
University Rank - #2
Address - 293 Queen St, Brisbane City QLD 4000, Australia
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Campus - canberra, Australia
University Rank - #3
Address - Canberra ACT 0200, Australia
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Campus - sydney, Australia
University Rank - #4
Address - Sydney NSW 2052, Australia
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Campus - north-terrace, Australia
University Rank - #6
Address - Mudla Wirra Rd, Roseworthy SA 5371, Australia
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Campus - perth, Australia
University Rank - #7
Address - 1151 Richmond St, London, ON N6A 3K7, Canada
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Campus - sydney, Australia
University Rank - #9
Address - level 24/123 Pitt St, Sydney NSW 2000, Australia
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Campus - bentley, Australia
University Rank - #10
Address - Kent St, Bentley WA 6102, Australia
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Campus - sydney, Australia
University Rank - #10
Address - Kent St, Bentley WA 6102, Australia
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(330 Courses)
(305 Courses)
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About Biomedical Engineering

In the progression of our planet from the bunch of elements it was to the living, breathing entity it is today, many species have come and gone. Multitudes of them have ruled over their respective timelines but have eventually been moved to extinction owing to climate change, natural calamities and other such forces that they couldn’t fight. The species that have survived have done so because of their ability to adapt. The human race is the most prominent of them and it is defined by its problem-solving abilities. Over the passage of time, human beings have invented and developed tools and technology to work on the inconveniences troubling their species. It is there that the significance of engineering as a branch comes into the fore.

Biomedical Engineering

Over time, human beings started falling victim to the cruelties of the world they inhabited and realized the significance of knowing their own bodies and the elements around. They started learning more about the ailments troubling them, their causes, their effects, their symptoms, their cures and ways of prevention. With the progress of time, they learned more about a variety of diseases and illnesses that could trouble their species and it became crucial that constant developments had to be made in that perspective and thus, medical science assumed paramount importance in the scheme of things.

Any modern medical facility in concurrent times is expected to have two main constituents – an expert medical professional and efficient machinery. Biomedical engineering thrives on this constituent. Biomedical engineering is the branch of engineering which combines the principles and concepts of engineering to medicinal and biological sciences. It seeks to integrate the problem-solving and designing tendencies of the former to the requirements and functioning of the latter. It consists of inventing and developing new technology and upgrading the existing ones in order to be able to diagnose, analyze and cure diseases, ailments and illnesses. In addition to these activities, biomedical engineering also consists of the efficient management of current medical equipment in accordance with sanitary requirements and industry standards. This activity consists of regular testing, recommendations, and disposal. It is essential to note that biomedical engineering is a relatively new field as it used to be considered as an interdisciplinary element of another branch of engineering. However, keeping in mind the vast array of information and scope in the subject, and realizing its importance as a branch of science, it was recognized as a separate branch, in order to ensure more attention and specialization in the field. Over time, the branch has gone on to assume paramount importance as a branch of engineering.

Disciplines in Biomedical Engineering

The field of biomedical engineering is too vast to be covered under the ambit of one branch or discipline. Experts in the field have sought to divide it into various disciplines so as to ensure that each discipline gets an apt amount of attention and research. Some of the branches that biomedical engineering is divided into are:

  1. Bioinformatics: This branch uses mathematics, computer sciences and statistics to invent and upgrade tools to procure, process, analyze and interpret biological data.
  2. Biomechanics: This branch studies the mechanical elements of an organism to foster a better understanding of the biological structure of living beings.
  3. Biomaterial: This branch is involved in the study of any exterior element, material or particle that interacts with human beings and might affect their biological structure.
  4. Biomedical Optics: This branch studies the interaction between any tissue in living creatures and light. It aims to see whether this interaction can lead to better imaging or cure.
  5. Tissue engineering: Tissue engineering primarily consists of genetically creating biological tissue in order to create entire organs from small quantities of biological material. It is a relatively new branch as scientists work on new developments each passing day.
  6. Genetic engineering: The branch of genetic engineering aims to use modern facilities to alter and change the molecular structure of organisms for better protection from or cure of any ailments.
  7. Neural engineering: This branch utilizes the concepts and principles of engineering to restructure, repair or alter neural tissues.
  8. Pharmaceutical engineering: Often considered as a branch of pharmacy, this discipline is involved in the development and delivery of a multitude of drugs and the invention and development of pharmaceutical technology to better the development and delivery of drugs.
  9. Medical devices: This branch of biomedical engineering is involved in the invention, development, use, maintenance and management of medical devices such as pacemakers, prosthetics and implants. It consists of medical imaging (enabling medical professionals to view elements of the biological mechanism not easily visible through ultrasound and such facilities), implants (invented to replace and act as a biological structure) and bionics (made to replace and act as a body part).
  10.  Clinical engineering: This is the branch that deals with training and supervising in the gambit of the actual use of biomedical technology and equipment.
  11.  Rehabilitation engineering: This branch consists of implementing engineering principles and techniques to invent technologies, implants, bionics, and equipment to help differently-abled people to cope with their disabilities.

Most degrees offered in the field concentrate on a certain branch or discipline more than the others so as to ensure specialization and development in the branch, both academically and professionally. Education in the subject is provided at all levels – bachelors, masters, and doctorates. The undergraduate degrees offered in the subject are Bachelors of Technology (B. Tech), Bachelors of Science in Engineering (B.S. E), Bachelors of Engineering (B. Eng.) or Bachelors of Science (B.S). The post-graduate degrees offered in the field are Masters of Technology (M. Tech), Masters of Science in Engineering (M.S.E), Masters of Engineering (M. Eng.) or Masters of Science (M.S). Doctorate degrees are also offered in the same subjects. Most professions in the field require at least post-graduate degrees as it is widely accepted that the subject matter of a bachelor’s education is not enough to provide apt expertise in the field.

Study Biomedical Engineering Abroad

Multitudes of universities across the world provide a variety of courses on the subject of biomedical engineering. Among these, the USA is the preferred destination. Indian students prefer to choose foreign locations for their further education owing to the technological developments in the countries. Access to better technology is integral to pursuing a good medical education and thus, Indians seek to move to other countries for this purpose. Along with this, these countries are also home to better employment opportunities. Moreover, the multicultural and diverse environment on offer in foreign universities fosters an exchange of ideas and thoughts, leading to higher standards of learning. In comparison to European countries, USA fares better in the field of biomedical technology as it has at its disposal a large number of universities, technological advances, and relatively few internal hindrances. While Europe is replete with educational prosperity, it has faced obstacles in the form of creating a uniform structure of education across its geographical boundaries. Among other locations, Australia and China are rapidly developing in the area of biomedical technology. The best educational institutions in the world in the field of biomedical engineering are:

  1. Harvard University, United States of America
  2. Georgia Institute of Technology, United States of America
  3. Shanghai Jiao Tong University, China
  4. The University of Washington, United States of America
  5. Duke University, United States of America
  6. Rice University, United States of America
  7. Cornell University, United States of America
  8. Fudan University, China
  9. Rutgers, the State University of New Jersey-New Brunswick, United States of America
  10.  National University of Singapore, Singapore

Most of these universities conduct entrance examinations wherein a candidate’s interest and capability towards biology, mathematics, and physics are tested, with the latter two subjects being given special attention. Universities might ask candidates to submit a Statement of Purpose (SoP), Letters of Recommendation (LoRs) and scores of tests such as GRE, GMAT, SATs, TOEFL or IELTS as a proof of English-speaking abilities. Some universities might also conduct interviews with candidates, either at the campus or digitally. Some foreign universities require applicants to submit financial records of the previous years in order to ascertain the ability of candidates to pay for education and other expenses. Education in this field usually costs around 25 lakh rupees annually, with accommodation, traveling and stationery costs ranging from around 4-5 lakh rupees. Many universities offer scholarships and incentives to students on the basis of various grounds, ranging from academic performance to extra-curricular activities.

Job Opportunities

Most of the jobs in the field range around research and development, with manufacturing engineer, quality engineer, researcher, and software engineer being some of the jobs online. These particular titles exist in all the aforementioned inter-disciplines. Jobs in the biomedical engineering sector offer extremely high packages as it combines two extremely prosperous job fields – engineering and medical sciences. Holders of doctorate degrees often range into the world of academia as well, a prospect that is just as promising. Hence, the area of biomedical engineering holds bright scope both in the range of education and employment. It is of little doubt, then, that it is so popular among students the world over.

About Australia

Did you know, over 37 Australian universities have made it to the 2018 QS list of top universities in the world? The Australian education system offers quality education combined with great employer and industry reputation.

The primary and secondary level of education in Australia is no different than the other countries since it sets up the basic concepts of knowledge in the mind of young. What makes a difference is the tertiary education programme in Australia.

Australia has around 43 universities and in order to keep in check the working of these universities the Australian government has initiated  programmes such as:

• The Australian Qualification Framework (AQF) established in 1995 as a national policy for tertiary education in Australia.

• The Tertiary Education Quality and Standard Agency (TEQSA) which monitors the quality standards of higher education in Australia.

The top quality institutions in Australia offer a variety of courses. The best courses to study are:

  • Engineering
  • Accountancy
  • Law
  • Agricultural Sciences
  • Architecture
  • Tourism and Hospitality Management
  • Humanities and Social Work

Some of the globally renowned institutes and universities of Australia are:

  • University of Sydney, Sydney
  • Australian National University, Canberra
  • University of Queensland, Brisbane
  • University of Melbourne, Melbourne
  • Monash University, Melbourne
  • University of New South Wales, Kensington
  • University of Western Australia, Perth
  • University of Adelaide, Adelaide
  • RMIT University

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