CDR Report Sample for Biomedical Engineers
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CDR Report Sample for Biomedical Engineers

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Biomedical Engineer CDR Report Sample

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 An ECG Amplifier Channel”

Introduction: In first career episode, the author describes the project he did when he wascompleting his graduate degree. This career episode is based on his graduation project named as; “Development of An ECG Amplifier Channel”.

Background: This project describes the procedure of deign that was undertaken, along with the specifications of the project in the design and the implementation of cost-effective ECG amplifier. It was designed on the basic principle of electrocardiography so that the electrical commotion diffused all over the body and could be picked by passing electrodes above the surface of the skin. The five electrodes were used commonly in order to record the electrical action of the heart-chest electrodes, right leg, right arm, and left arm.

During the time, the responsibilities of the author were to:

  • Conducting several meetings with my team members and the client.
  • Preparing the project documents and made a report on it.
  • Measuring the technical issues during the signal measurement.
  • Designing the cost-effective ECG amplifier and implemented it.
  • Scheduling the daily project activates and divided the work among the team leaders.

Biomedical Engineer Career Episode Report 2

Project Name: “Enhancement of The Antibiotic Activity Against the Orthopedic Stainless-Steel Infections Under the Influence Of Electric Current”

Introduction: In second career episode, the author explains the engineering skills he used when he was completing hisbachelor’s degree at the College of Biomedical Engineering and Applied Sciences. This career episode is based on his graduation project named as; “Enhancement of The Antibiotic Activity Against the Orthopedic Stainless-Steel Infections Under the Influence Of Electric Current”.

Background: The main scope of this project was to design a treatment method by using electric current that enhances the activity of the antibiotic against the S.aureus biofilm infection stainless steel 316L.The electric current was used to detach and prevent the biofilm on the implant surface and also could enhance the bactericidal property of the antibiotics. The Biofilm was produced in the Stainless Steel 316L, and the different concentrations of tobramycin were added after treatment with Direct Current. The antibiotic activity was found to be enhanced pre-treatment with the electric current compared to the traditional antibiotic only treatment method.

During the time, the responsibilities of the author were to:

  • Conducting daily meeting with my supervisor and team members
  • Arranging and preparing all the project documents.
  • Performing tests and designing the treatment methodology of the project.
  • Designing the direct current circuit in order to supply the electric current.
  • Performing laboratory test and cultured the S. aureus in the laboratory.

Biomedical Engineer Career Episode Report 3

Project Name: “H10: Evaluation of Driver Fatigue”

Introduction: In third career episode, the author explains the engineering skills he used when he was enrolled in the 4-year bachelor's program. This career episode is based on his graduation project named as; “H10: Evaluation of Driver Fatigue”.

Background: Mental and physical functional disorder due to long continuous driving marked by slow motor reaction times and decreased cognitive attention can be described as fatigue driving. Driver fatigue is considered as one of the leading cause of road accidents accounting for 20% of road crashes. Therefore, it is a significant issue among road safety administration worldwide(Fatigue statistics - TAC - Transport Accident Commission). The primary aim of this project was to find the most reliable method to identify the level of fatigue among the drivers. Among various methods used for emotion recognition and ECG, EEG is considered to be most reliable. So, the project aimed to study a different aspect of EEG signals for categorizing different levels of driver’s alertness.

During the time, the responsibilities of the author were to:

  • Isolating EEG changes during early, medium and extreme phases during driving.
  • Using 10-20 International System for data acquisition.
  • Targeting the Occipital and Parietal lobe for data analysis
  • Identifying the significance of alpha, beta, delta, and theta wave.
  • Classifying the data into the fatigued and non-fatigued state.

Biomedical Engineer Summary Statement

In his summary statement the author presents all the competency elements required for Professional BiomedicalEngineer. 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 BiomedicalEngineering Knowledge.

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