Microfluidics is a powerful technique to manipulate fluids at the microscale.
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Faithful to our philosophy, we do not limit ourselves to one type of sensor or actuator (a single technology will not resolve all issues).
In order to ensure that our solutions have a broad impact, we use and develop a range of fabrication processes.
Measuring, monitoring and modelling human movement is an essential component in many sectors of healthcare research.
We develop synthetic datasets to validate algorithms, including machine learning algorithms (artificial intelligence, AI) used in medical devices.
Healthcare Technologies and Biomedical Engineering
Working with microfluidics, biomedical integrated sensors, and wearable devices for movement analytics, we specialise in translational research to ensure that such advances benefit our society as a whole.
We also address the safety of medical devices, validating algorithms including machine learning (artificial intelligence) algorithms used in medical devices. Validation provides legitimacy to new products, enabling them to reach the market more quickly. Our capability includes areas of safety analysis techniques (e.g. FMEA) for medical devices and their associated software, and interpretation of safety standards.