TY - UNPB
T1 - Digital Foot Models from Sensor Data for Improved Orthopedic Aid Fitting
AU - Carere, Giuseppe
AU - Geurts, Bernard J.
AU - van 't Hof, Bas
AU - Holtkamp, Fred
AU - Luesink, Erwin
AU - Schlottbom, Matthias
AU - Suk, Julian
AU - Sweering, Michelle
AU - Wolterink, Jelmer M.
PY - 2023/9/30
Y1 - 2023/9/30
N2 - This report describes and develops different methods for converting 3D time series data to surface representations. The considered methods contain public domain mesh generation software, as well as linear regression models and surface representations using signed distance functions. We provide a simple code base for the latter two methods such that they can be used for further research in a simple manner. We apply and test the algorithms on a point cloud for a foot model. All methods yield good representations of the underlying foot geometry. Such algorithms can therefore have a big impact on handling foot problems.
AB - This report describes and develops different methods for converting 3D time series data to surface representations. The considered methods contain public domain mesh generation software, as well as linear regression models and surface representations using signed distance functions. We provide a simple code base for the latter two methods such that they can be used for further research in a simple manner. We apply and test the algorithms on a point cloud for a foot model. All methods yield good representations of the underlying foot geometry. Such algorithms can therefore have a big impact on handling foot problems.
U2 - 10.33774/miir-2023-mk9wn
DO - 10.33774/miir-2023-mk9wn
M3 - Working paper
BT - Digital Foot Models from Sensor Data for Improved Orthopedic Aid Fitting
ER -