The work involves conducting in-vivo tests, using a walking simulator apparatus, and in-vitro tests, with an amputee, on a passive ankle-foot prosthesis, in order to optimize its functional and structural characteristics. The optimization is based on a comparison of data obtained from the two different tests.

The work involves conducting in-vivo tests, using a walking simulator apparatus, and in-vitro tests, with an amputee, on a passive ankle-foot prosthesis, in order to optimize its functional and structural characteristics. The optimization is based on a comparison of data obtained from the two different tests.

Structural and functional optimization of an innovative bio-inspired ankle-foot passive prosthesis

RAGNO, MARCO
2023/2024

Abstract

The work involves conducting in-vivo tests, using a walking simulator apparatus, and in-vitro tests, with an amputee, on a passive ankle-foot prosthesis, in order to optimize its functional and structural characteristics. The optimization is based on a comparison of data obtained from the two different tests.
2023
Structural and functional optimization of an innovative bio-inspired ankle-foot passive prosthesis
The work involves conducting in-vivo tests, using a walking simulator apparatus, and in-vitro tests, with an amputee, on a passive ankle-foot prosthesis, in order to optimize its functional and structural characteristics. The optimization is based on a comparison of data obtained from the two different tests.
ankle-foot
prosthesis
forces
PETRONE, NICOLA
Lauree magistrali
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.12608/64933