Biomedical Engineering(H161)
Master
In London
Description
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Type
Master
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Location
London
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Duration
4 Years
Our Biomedical Engineering MEng course has been designed to train the next generation of biomedical engineers working in healthcare research and development. Upon completion, you will go on to specialise in medical engineering, medical physics or apply for further study in Medicine.
Facilities
Location
Start date
Start date
About this course
Biomedical Engineering graduates can enter various industries, such as a medical hardware and software, or take a clinical engineering position in a hospital. Graduates may also choose to progress to a masters or doctoral degree specialising in medical engineering or medical physics, or progress to a medical degree.
Please note that A-level General Studies, Critical Thinking, Thinking Skills and Global Perspectives are not accepted by King's as one of your A-levels. However, if offered the grade achieved may be taken into account when considering whether or not to accept a candidate who has just fallen short of the conditions of their offer.
Reviews
Subjects
- Image
- Engineering
- Medical
- Medical training
- Programming
- Biomedical Engineering
- Biomedical
- Computational
- GCSE Physics
- Computer Programming
Course programme
Courses are divided into modules. Each year you will normally take modules totalling 120 credits.
Required ModulesYou are required to take:
- Computer Programming (15 credits)
- Physics for Biomedical Engineering (15 credits)
- Joint Honours Lab (15 credits)
- Computational Statistics (15 credits)
- Introduction to Human Anatomy & Physiology (15 credits)
- Electrical Engineering 1 (15 credits)
- Mathematics for Biomedical Engineering (15 credits)
- Mechanics for Biomedical Engineering (15 credits)
2nd Year
Required Modules
You are required to take:
- Electromagnetism (15 credits)
- Signals & Systems (15 credits)
- Signal & Image Processing (15 credits)
- Introduction to Medical Physics & Clinical Engineering (15 credits)
- Computational Methods (30 credits)
- Computational Applied Biomathematics (15 credits)
- Object-Oriented Programming (15 credits)
- Biomedical Engineering Professional Issues (0 credits)
3rd Year
Required Modules
You are required to take:
- BEng Research Project (30 credits)
- Medical Imaging (15 credits)
- Modelling Flow & Transport (15 credits)
- Advanced Mechanics (15 credits)
- Mechatronics (15 credits)
In addition, you are required to take two modules from a range of optional modules that may typically include:
- Synthetic Anatomy (15 credits)
- Molecular & Cell Biology for Biomedical Engineers (15 credits)
- Biomechanics & Neurorehabilitation (15 credits)
- Bioelectricity (15 credits)
- Machine Learning for Biomedical Applications (15 credits)
Required Modules
You are required to take:
- MEng Group Research Project (30 credits)
- MEng Individual Research Project (30 credits)
You are also required to take four modules from a range of optional modules, which may typically include:
- Medical Image Reconstruction (15 credits)
- Medical Image Acquisition (15 credits)
- Scientific Programming (15 credits)
- Medical Image Computing (15 credits)
- Advanced Machine Learning (15 credits)
- Introduction to Biophysical Modelling (15 credits)
- Advanced Finite Elements (15 credits)
- Computer Vision for Surgery & Interventions (15 credits)
King’s College London reviews the modules offered on a regular basis to provide up-to-date, innovative and relevant programmes of study. Therefore, modules offered may change. We suggest you keep an eye on the course finder on our website for updates.
Additional information
Biomedical Engineering(H161)