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Amir Hamedzadeh, Ph.D.
Worked on optimization of computational algorithms used in non-linear FEA models for soft biological tissues.
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Brahim Brahmi, Ph.D.
Worked on integrating a haptic system into a real-time physics driven virtual reality simulator and control system of spinal robotics device.
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Khaled El-Monajjed
Worked on the multiscaleÌýsimulation of spinal stability with focus on the involvement of the intra-abdominal pressure.
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Ibrahim El-Bojairami
Worked on programming muscle pressure-force relationships for accurate modelling in biomechanical simulations.
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Sneha Patel
Worked on the optimization of finite element method tissue deformation optimized for parallel computing.
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Trevor Cotter
Worked on finite element-based virtual reality surgical simulators and integrating torque haptics.
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Natasha Jacobson
Worked on the medical device design of a novel tool to measure pressures of muscles adjacent to the spine.
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Tianqi Wang
WorkedÌýonÌýthe mapping algorithm between a graphical and computational finite element mesh for augmented reality.
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Nathan Nyamsi Hendji
Worked on implementing the thoracolumbar fascia in a spine finite element model to study its impact on the spine's natural frequencies.
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Dingzhong Zhang
Worked on designing a workflow for patient specific holographic CAD models.
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Swajan Paul,ÌýMBBCh, MSc candidate
Worked on patient specific standard CT scan based models compatible with an augmented reality platform
Maxence Coulombe
Worked on developing the User Interface for a Virtual Reality surgical simulator.
Mukit Momin
Worked on software development and integration for a Virtual Reality surgical simulation.
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Isabella Bozzo
Worked on a parametric spine model to be leveraged to explore new theories governing spinal stability
Alain Dagher
Worked on the 3D construction of a spine model, inclusive of soft tissue, from segmentation reconstructed images.
Cornelius Hart
Worked on the accurate volumetric simulation of muscles during contraction.
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