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Graduate School of Biomedical Engineering
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Research areas
- Advanced imaging
- Advanced manufacturing
- Bionics
- Biomaterials & bioinspired materials
- Biosensing
- Biomechanics
- Cancer nanotechnology
- Cell technology
- Computational modelling
- Integrated Devices Intelligent diagnostics
- Medical surgical robots
- Neural interfaces
- Telemonitoring
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- Home
- About us
- Study with us
-
Our research
Research areas
- Advanced imaging
- Advanced manufacturing
- Bionics
- Biomaterials & bioinspired materials
- Biosensing
- Biomechanics
- Cancer nanotechnology
- Cell technology
- Computational modelling
- Integrated Devices Intelligent diagnostics
- Medical surgical robots
- Neural interfaces
- Telemonitoring
- Regenerative Medicine tissue engineering
- Student life
- News & events
- Alumni & industry
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Computational modelling is a powerful tool used to simulate complex physiological systems and their interaction with medical devices. Our research includes simulation of electrical stimulation of retina; modelling cardiac electrical activity, mechanical contraction, and blood flow dynamics; simulations of transcranial electrical stimulation and biomechanics of bones, muscles, and orthopaedic prosthetics. Many of these projects are undertaken in conjunction with extensive experimental work for model validation.