Subject specific
Subject specific numerical simulation and its application to traumatology
9
Subject specific hexahedral Finite Element mesh generation of the pelvis from bi-Planar X-ray images
3
Subject-specific body segment parameters’ estimation using biplanar X-rays: a feasibility study
15
Subject-Specific Channel Selection Using Time Information for Motor Imagery Brain–Computer Interfaces
15
Early Diagnosis of Alzheimer’s Disease Using Subject-Specific Models of FDG-PET Data
3
Fast Subject Specific Finite Element Mesh Generation of Knee Joint from Biplanar X-ray Images
11
Atlas-Based Automatic Generation of Subject-Specific Finite Element Tongue Meshes
33
Modeling susceptibility to drug-induced long QT with a panel of subject-specific induced pluripotent stem cells
25
Prediction of the mechanical response of canine humerus to three-point bending using subject-specific finite element modelling
11
Subject Specific Finite Element Mesh Generation of the Pelvis from Biplanar X-ray Images: Application to 120 clinical cases
9
Subject Specific Finite Element Mesh Generation of the Pelvis from Biplanar X-ray Images: Application to 120 clinical cases
9
Subject-specific cardiovascular system model-based identification and diagnosis of septic shock with a minimally invasive data set: animal experiments and proof of concept.
23
A new approach in the clinical decision-making for cerebral palsy using three-dimensional subject-specific musculoskeletal reconstructions.
9
Subject-specific channel selection for classification of motor imagery electroencephalographic data
5
Influence of Physiological Constraints on a Subject-specific BSIP Calibration
2
Determination of subject-specific muscle fatigue rates under static fatiguing operations
35
Modeling Subject-Specific Formant Transition Patterns in /aSa/ Sequences
5
Subject‐specific segregation of functional territories based on deep phenotyping
53
Subject-specific time-frequency selection for multi-class motor imagery-based BCIs using few Laplacian EEG channels
11
A subject-specific biomechanical control model for the prediction of cervical spine muscle forces
10