Exciting trends in the health industry in Australia have led to a quick rise in demand for Biomedical Engineers all across the country. If you are also a Biomedical Engineer aspiring for better job opportunities and career prospects in biomedicine, Australia can be the perfect destination. ANZSCO (Australia New Zealand Standard Classification of Occupations) classifies the occupation of a biomedical engineer under the occupation code 23391.

What does a Biomedical Engineer do?

Biomedical Engineers are an important part of the healthcare industry today. A biomedical engineer combines the principles of engineering with biology and medical science and hence creates equipment that can be used in the health industry. Their main job, therefore, revolves around developing, maintaining and testing the products and equipment’s that are meant for biomedical industries.

Biomedical engineers are generally working in laboratories, clinics or workshops. They are employed in a wide range of industries including healthcare services, universities, research centres, charities, hospitals or equipment manufacturing firms. They are alternatively called as bioengineers, clinical engineers or medical engineers in different scenarios and organizations.

What are the tasks of a Biomedical Engineer?

1. Finding solutions to the existing biomedical problems through investigation and innovation
2. Developing and designing computer simulations and software systems that can serve a medical function or imitate human behaviour
3. Testing and analysis of the effectiveness of a biomedical instrument
4. Designing, developing and maintaining the new equipment that can be used in the biomedical industry
5. Training medical staffs on how to use computer software or biomedical equipment
6. Repairing of faulty medical equipment
7. Researching to find solutions to clinical problems using different means such as surveys, interviews and questionnaires etc.
8. Staying up to date with the current technologies in the biomedicine field and finding ways on how the new technology can be used for the benefit of people

How WriteCDR Experts Help?

The biomedical engineers aspiring to migrate to Australia need to provide with a CDR (Competency Demonstration Report) to Engineers Australia. Engineers Australia, the migration skill assessment authority, assesses the CDR and ensures that the applicant is competent enough to survive in the working environment in Australia. The CDR thus contains detailed information about the career achievements and learning of the applicant.

Our experts can help biomedical engineers in crafting a perfect CDR. What makes us stand apart from the rest is that we have CDR writers from the biomedical engineering field. They thus are able to reflect their knowledge about biomedicine and CDR writing ensuring you the best CDR.

We ensure that the CDR is written as per the inputs were given by the applicant to us. Whether it is the career episodes, referencing or summary writing, we work as per your guidelines. Thus we guarantee you a personalized CDR written exclusively for your application.

We also take care of plagiarism issues in CDR writing. Many times applicants are subjected to unintentional plagiarism as they take help from online CDR samples. Our writers use specialized tools to identify and remove plagiarized content from your CDR.

CDR Report Sample for Biomedical Engineers

The Competency Demonstration Report Sample for Biomedical Engineer includes all the necessary reports such as Three Career Episodes, Continuing Professional Development and Summary Statement. The Content of the Biomedical Engineer CDR Report Sample is as follow:

Biomedical Engineer Career Episode Report 1

Project Name: “Development of A Wheelchair System Using Voice Recognition Technology And ZIGBEE”

In first career episode, the author describes the project he did when he was a student of Biomedical Engineering. This career episode is based on his project named as; “Development of a wheelchair system using voice recognition technology and ZIGBEE”. During the time, the responsibilities of the author were to:

• I conducted an analysis of the project related problems and then determined the best possible alternatives which could be employed for the elimination of such problems.
• I prepared the work plan to design the wheelchair using speech recognition technology.
• I established my project objectives with the help of supervisor after considering all the requirements of the project.
• I designed the master circuit in two distinct sections like wheelchair section and voice recognition section.
• I designed the wheelchair section with the utilization of the IR sensor, heartbeat sensor, DC motor, body temperature and many other.

Biomedical Engineer Career Episode Report 2

Project Name: “Uric Acid Analysis System- Designing Lab on A Chip”

In second career episode, the author explains the engineering skills he used when he was doing bachelor’s in biomedical engineering. During this time his duties and responsibilities in the project “Uric acid analysis system- Designing Lab on a chip” were:

• I prepared the standard curve of the uric acid (UA) with the utilization of spectrophotometer by carrying out the conventional phosphotungstic acid method.
• I utilized the disposable SPE with the utilization of semi-automatic screen printer.
• I carried out the optimization of the designed chip by voltammeter.
• I conducted detailed analysis of uric acid with respect to each of the blood sample using the designed optimized strips and compared with the phosphotungstic acid method.
• I executed the comparative analysis of the results obtained with respect to the

Biomedical Engineer Career Episode Report 3

Project Name: “Designing of TC and HDL-C Detecting Electrochemical Sensor”

In third career episode, the author explains the engineering skills he used when he was a student of Biomedical Engineering. During this time his duties and responsibilities in the project “Designing of TC and HDL-C detecting electrochemical sensor” were:

• I first developed a spectrophotometric method for analyzing the concentration of TC and HDLC.
• I evaluated the effect of EB66 and TX100 at different concentrations and optimized its concentration for selective assay of TC and HDLC
• I extrapolated the results of spectrophotometric analysis over electrochemical analysis and developed an assay kit for the detection of TC and HDLC.
• I calibrated the biosensor for its linearity, sensitivity, and accuracy for detecting TC and HDLC under control conditions.
• I evaluated the effect of different reagents such as delipidated serum, enzymes and surfactants on the performance of biosensor.

Biomedical Engineer Summary Statement

In his summary statement the author presents all the competency elements required for Professional Biomedical Engineer. There are cross references in the summary statement to the relevant paragraph of the episodes, as explained in the Engineers Australia migration skills assessment booklet. His Summary Statement is in complete accordance with the today’s requirements of the Engineers Australia.

Biomedical Engineer Continuing Professional Development

The CPD includes professional courses, non-professional courses and private study. CPD Sample clearly explains the author’s Biomedical Engineering Knowledge.

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