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Upper limb mechatronics rehabilitation device (CROSBI ID 694061)

Prilog sa skupa u zborniku | sažetak izlaganja sa skupa

Bazina, Tomislav ; Kamenar, Ervin ; Zelenika, Saša Upper limb mechatronics rehabilitation device // Book of Abstracts - My First Conference 2020 - 4th Annual PhD Conference on Engineering and Technology / Dugonjić Jovančević, Sanja ; Franulović, Marina ; Vukelić, Goran et al. (ur.). Rijeka: Tehnički fakultet Sveučilišta u Rijeci, 2020. str. 7-7

Podaci o odgovornosti

Bazina, Tomislav ; Kamenar, Ervin ; Zelenika, Saša

engleski

Upper limb mechatronics rehabilitation device

engaging in rehabilitation sessions within 3 poststroke weeks show better outcomes [2]. To regain motion skills, the patients must reacquire in this frame the ability to perform a series of quick and precise movements [1]. The human motor system is, however, very complex, so that the central nervous system “organizes” it hierarchically, forming functional groups encompassing several muscles with their activation sequences. Such synergies should be stimulated in rehabilitation to enable the recovery of daily activities. A compact upper limb mechatronics rehabilitation device, conceptualized in [3], is hence detailed in this work. The considered design goals are smooth interactions, kinematic compatibility with the human arm, redundant safety features, low cost and robust adaptive control enabled by proper sensors. To assure the functional architecture of the device, the analysis of human-device interactions and interfaces, the modeling of the respective kinematics, and the characterization of the respective specifications are hence to be performed [1]. The modeling starts thus from a simplified 8 degrees of freedom (DOFs) human arm configuration, adding subsequently further complexity layers. The functional and operational specifications are then detailed for the interfaces, the mechanical parts, the actuators and sensors, and the control system. The finally proposed mechatronics device comprises 8 revolute active joints supplemented with one spherical and 5 prismatic passive joints, resulting in a total of 14 joints and 16 DOFs distributed along the shoulderelbow- wrist-hand interaction chain. The study of the respective ranges of motion is also performed, and verified against the rehabilitation requirements. The analysis of the relation between the device and human kinematics, the respective modeling and the practical execution of the proposed innovative design configuration are planned next.

robotic rehabilitation ; functional recovery ; engineering design ; mechatronics device

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Podaci o prilogu

7-7.

2020.

objavljeno

Podaci o matičnoj publikaciji

Book of Abstracts - My First Conference 2020 - 4th Annual PhD Conference on Engineering and Technology

Dugonjić Jovančević, Sanja ; Franulović, Marina ; Vukelić, Goran ; Kirinčić, Mateo ; Liović, David ; Zlatić, Marin

Rijeka: Tehnički fakultet Sveučilišta u Rijeci

978-953-8246-18-0

Podaci o skupu

4th edition of annual conference for doctoral students of engineering and technology „MY FIRST CONFERENCE“

predavanje

24.09.2020-24.09.2020

Rijeka, Hrvatska

Povezanost rada

Interdisciplinarne tehničke znanosti, Strojarstvo, Temeljne tehničke znanosti