Hamamatsu Integrative System Paradigm to Biomedical Imaging and Functional Understanding Observing in situ living systems across temporal and spatial.

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Presentation transcript:

Hamamatsu Integrative System Paradigm to Biomedical Imaging and Functional Understanding Observing in situ living systems across temporal and spatial scales, analyzing and understanding the related structural and functional segregation and integration mechanisms through model-based strategies and data fusion, recognizing and classifying pathological extents and degrees Three pillars: Biological and physical modeling In situ observations Robust integration Pengcheng Shi spacst@rit.edu, 475-6147

Personalized Inverse Cardiac Electro-Mechanical Mapping from Structural and Functional Images Physiome modeling electrical propagation electro-mechanical coupling biomechanics Recovery volumetric inverse electrophysiology material elasticity kinematics geometry Pengcheng Shi spacst@rit.edu, 475-6147

Dynamic PET: Activity and Parametric Imaging MicroPET instrumentation Low count PET reconstruction Dynamic PET Pharmacokinetics (0 – 30 min, 1min interval) Pengcheng Shi spacst@rit.edu, 475-6147

Nonlinear Analysis and Fusion of fMRI and EEG Images Hamamatsu Nonlinear Analysis and Fusion of fMRI and EEG Images Pengcheng Shi spacst@rit.edu, 475-6147

Fundamental Image Analysis Research Segmentation of Ultrasound Image of Carotid Artery Efficient representation and computation platform Robust image segmentation Inverse-consistent image registration Non-rigid motion recovery Pengcheng Shi spacst@rit.edu, 475-6147