The MSc in Electronics with Medical Instrumentation aims to produce postgraduates with an ability to design and implement medical instrumentation based systems used for monitoring, detecting and analysing biomedical data. The course will provide ample opportunity to develop practical skill sets. The student will also develop an in-depth understanding of the scientific principles and use of the underlying components such as medical transducers, biosensors and state-of-the-art tools and algorithms used to implement and test diagnostic devices, therapeutic devices, medical imaging equipment and medical instrumentation devices.
The course broadens the discussion of medical equipment and its design by investigating a range of issues including medical equipment regulation, user requirements, impacts of risk, regulatory practice, legislation, quality insurance mechanisms, certification, ethics and ‘health and safety’ assessment. The course will enable a student with an interest in medical electronics to re-focus existing knowledge gained in software engineering, embedded systems engineering and/or electronic systems engineering and will deliver a set specialist practical skills and a deeper understanding of the underlying principles of medical physics. A graduate from this course will be able to immediately participate in this multi-disciplined engineering sector of biomedical and medical instrumentation systems design.
Each MSc course consists of three learning modules (40 credits each) plus an individual project (60 credits). Each learning module consists of a short course of lectures and initial hands-on experience. This is followed by a period of independent study supported by a series of tutorials. During this time you complete an Independent Learning Package (ILP). The ILP is matched to the learning outcomes of the module. It can be either a large project or a series of small tasks depending on the needs of each module. Credits for each module are awarded following the submission of a completed ILP and its successful defence in a viva voce examination. This form of assessment develops your communication and personal skills and is highly relevant to the workplace. Overall, each learning module comprises approximately 400 hours of study.
The project counts for one-third of the course and involves undertaking a substantial research or product development project. For part-time students, this can be linked to their employment. It is undertaken in two phases. In the first part, the project subject area is researched and a work plan developed. The second part involves the main research and development activity. In all, the project requires approximately 600 hours of work.
Further flexibility is provided within the structure of the courses in that you can study related topic areas by taking modules from other courses as options (pre-requisite knowledge and skills permitting).
Prior to starting your course, you are sent a Course Information and Preparation Pack which provides information to give you a flying start.
MSc Electronics Suite of Courses
The MSc in Electronics has four distinct pathways:
- Robotic and Control Systems
- Embedded Systems
- System-on-Chip Technologies
- Medical Instrumentation
The subject areas covered within the four pathways of the electronic suite of MSc courses offer students an excellent launch pad which will enable the successful graduate to enter into these ever expanding, fast growing and dominant areas. With ever-increasing demands from consumers such as portability, increased battery life and greater functionality combined with reductions in cost and shrinking scales of technologies, modern electronic systems are finding ever more application areas.
A vastly expanding application base for electronic systems has led to an explosion in the use of embedded system technologies. Part of this expansion has been led by the introduction of new medical devices and robotic devices entering the mainstream consumer market. The industry has also fed the increase in demand particularly within the medical electronics area with the need of more sophisticated user interfaces, demands to reduce equipment costs, demands for greater accessibility of equipment and a demand for ever greater portability of equipment.
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Last updated February 19, 2018