@inproceedings{SchaefferLiebrechtSchmausseretal., author = {Schaeffer, Leon and Liebrecht, Melanie and Schmaußer, Theresa and Herrmann, David and Lehmann, Lukas and B{\"o}hm, Valter}, title = {Finite element analysis of a tensegrity joint model for the use in dynamic hand orthoses}, series = {2025 9th International Conference on Biomedical Engineering and Applications (ICBEA), Seoul, Republic of Korea, February 27 - March 2, 2025}, booktitle = {2025 9th International Conference on Biomedical Engineering and Applications (ICBEA), Seoul, Republic of Korea, February 27 - March 2, 2025}, publisher = {IEEE}, isbn = {979-8-3315-3571-1}, doi = {10.1109/ICBEA66055.2025.00016}, pages = {41 -- 48}, abstract = {Many current dynamic hand orthoses use single degree of freedom joints, such as hinge joints. Consequently, these orthoses can only partially replicate the complex, multi-axis range of motion of the hand. To overcome this limitation, one approach is to use prestressed compliant structures as the basis for orthoses. In order to be able to map the dynamic influences on the orthosis as well as to simulate everyday use, this article provides an overview of this orthosis concept and the most important aspects in the development of such an orthosis including the results of the modal analysis. Based on these theoretical investigations, the presented methodological approach can be used to develop initial prototypes of tensegrity-based hand orthoses.}, language = {en} }