Master Thesis Options Ocular Biomechanics Image-Driven 3D Characterization of Corneal Biomechanical (PDF, 316KB) Biomechanics of the Scoliotic Spine Unfolding the Spine: Deep Learning–Driven Reconstruction and Stiffness Quantification (PDF, 523KB) Personalizing musculoskeletal spine models of patients with scoliosis (PDF, 350KB) Motion capture-driven simulations of spinal motion in patients with scoliosis (PDF, 289KB) Secular Changes of Lumbar Spinal Canal Dimensions (PDF, 582KB) Implementing bidirectional coupling in a combined MSK-FE modeling approach for assessing spinal loading in scoliosis patients (PDF, 312KB) Enhancing a musculoskeletal full-body model with a thoracolumbar fascia to improve spinal loading simulations in scoliosis patients (PDF, 931KB) Automated classification of activities of daily living from IMU data in adolescents using a deep learning model (PDF, 142KB) Personalized FE model of scoliosis brace treatment (PDF, 364KB)
