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Within this division methods and techniques from mathematics, computer science, physics, electrical engineering and medicine are used in the imaging and modeling of biomedical systems. In both our research and clinical diagnostics these methods are applied to measure, understand, predict and depict the structure, function and metabolism of living cells and tissues.

In this section image analysis and visualization techniques are developed and applied to extract quantitative information from images. New robust alghorithms for segmentation, computer aided diagnosis and pattern recognition are studied and applied to practical clinical problems usually from cardio-vascular systems and the brain.

• Biomedical Image Analysis (Prof. Dr. Ir. B.M. Ter Haar Romeny)
• Clinical Imaging for Diagnosis & Therapies (Prof. Dr. Ir. M.Breeuwer)

Within this section topics such as heart fibrillation, bone (re)modeling, biomembrane formation and permeability predictions of complex molecules, cardiac muscle, skeletal muscle, neural networks, neural circulation and neural electrophysiology are studied.By combining qualitative knowledge arising from measurements and parameter estimation studies, appropriate computer models of these biomedical systems are built and studied.

• Biomodeling and Bioinformatics(Prof. Dr. P.A.J. Hilbers)
• Biosignals and Regulation ( Prof. Dr. Ir. P.P.J. van den Bosch)
• Physics of the Human Vestibular Function(Prof. Dr. H. Kingma)