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墨尔本大学 Prof. Dr. Peter Lee
(1)Biomechanics– ability to predict and better understand the mechanism of injury, leading to effective prevention strategies. Research spans all three levels, the human, organs and cells.
(2)Rehabilitation Engineering– biomechanics for lower limb prostheses and orthoses; CAD/CAM and rapid prototyping methods for prosthetic socket manufacturing to improve artificial limb function and amputee acceptance; development of new materials and methods for low cost prostheses.
苏黎世联邦理工学院 Prof. Dr. William R. Taylor
The Laboratory for Movement Biomechanics focuses on the study of kinematics and kinetics in healthy, reconstructed and replaced joints. By examining the quality of movement, we also aim to extract key information on an individual’s functional status and thereby lay the foundations for understanding and monitoring the degenerative changes that occur with musculoskeletal and neuromotor pathologies, but also the adaptation that results from ageing or rehabilitation.
瑞典皇家理工学院 Universitetslektor. Dr. Ruoli Wang
Focusing on developing experimental and computational methodologies to non-invasively estimate muscle neuromechanics. This includes investigating motor neuron firing behavior, force modulation, mechanical musculotendon parameters, and muscle stiffness, using an integrated approach combining medical imaging, musculoskeletal modeling, and optimization techniques.