Development of an Active Upper-Limb Orthosis

被引:3
作者
Alutei, A. [1 ]
Vaida, A. [1 ]
Mandru, D. [1 ]
Tatar, M. O. [1 ]
机构
[1] Tech Univ Cluj Napoca, Mech Precis Mech & Mechatron Dept, Cluj Napoca, Romania
来源
INTERNATIONAL CONFERENCE ON ADVANCEMENTS OF MEDICINE AND HEALTH CARE THROUGH TECHNOLOGY | 2009年 / 26卷
关键词
orthosis; upper-limb; functional; design; control;
D O I
10.1007/978-3-642-04292-8_89
中图分类号
R318 [生物医学工程];
学科分类号
0831 ;
摘要
An objective of Biomechatronics consists in developing intelligent systems for medical purposes. Some of these belong to Rehabilitation Engineering, designed for substituting or assisting lost or diminished sensorial and/or locomotor functions. In this paper an orthotic system for upper limb is proposed, designed, developed and tested. Its role is to assist the flexion-extension of the fingers index and middle, for elementary gripping operations, as well as the pronation-supination of the forearm.
引用
收藏
页码:405 / 408
页数:4
相关论文
共 50 条
[1]   Analysis of arm trajectories of everyday tasks for the development of an upper-limb orthosis [J].
Ramanathan, R ;
Eberhardt, SP ;
Rahman, R ;
Sample, W ;
Seliktar, R ;
Alexander, M .
IEEE TRANSACTIONS ON REHABILITATION ENGINEERING, 2000, 8 (01) :60-70
[2]   Development of a 4-DoF Active Upper Limb Orthosis [J].
Durante, Francesco ;
Raparelli, Terenziano ;
Zobel, Pierluigi Beomonte .
ROBOTICS, 2022, 11 (06)
[3]   A VP-based application to improve usability of an upper-limb rehabilitation orthosis [J].
Peruzzini, Margherita ;
Iuale, Matteo ;
Germani, Michele .
2014 IEEE/ASME 10TH INTERNATIONAL CONFERENCE ON MECHATRONIC AND EMBEDDED SYSTEMS AND APPLICATIONS (MESA 2014), 2014,
[4]   Developments in hardware systems of active upper-limb exoskeleton robots: A review [J].
Gopura, R. A. R. C. ;
Bandara, D. S. V. ;
Kiguchi, Kazuo ;
Mann, G. K. I. .
ROBOTICS AND AUTONOMOUS SYSTEMS, 2016, 75 :203-220
[5]   Integrated wearable and self-carrying active upper limb orthosis [J].
Merchant, Roberto ;
Cruz-Ortiz, David ;
Ballesteros-Escamilla, Mariana ;
Chairez, Isaac .
PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART H-JOURNAL OF ENGINEERING IN MEDICINE, 2018, 232 (02) :172-184
[6]   Upper limb active orthosis for post-stroke rehabilitation at home [J].
Butnaru-Moldoveanu, Sinziana Anca ;
Balan, Vera ;
Boanta, Silviu Stefan ;
Smadici, Denisa .
BALNEO AND PRM RESEARCH JOURNAL, 2023, 14 (03)
[7]   Rehabilitative and assistive wearable mechatronic upper-limb devices: A review [J].
Desplenter, Tyler ;
Zhou, Yue ;
Edmonds, Brandon P. R. ;
Lidka, Myles ;
Goldman, Allison ;
Trejos, Ana Luisa .
JOURNAL OF REHABILITATION AND ASSISTIVE TECHNOLOGIES ENGINEERING, 2020, 7
[8]   Passive and active lower-limb movements delay upper-limb balance reactions [J].
Quant, S ;
Maki, BE ;
Verrier, MC ;
McIlroy, WE .
NEUROREPORT, 2001, 12 (13) :2821-2825
[9]   Upper-Limb Exoskeletons for Stroke Rehabilitation [J].
Ambrosini, Emilia ;
Dalla Gasperina, Stefano ;
Gandolla, Marta ;
Pedrocchi, Alessandra .
XV MEDITERRANEAN CONFERENCE ON MEDICAL AND BIOLOGICAL ENGINEERING AND COMPUTING - MEDICON 2019, 2020, 76 :1722-1728
[10]   Design of Smart Orthosis of Upper Limb for Rehabilitation [J].
de Brito, Ana Carolina D'Angeles Mendes ;
Kutilek, Patrik ;
Hejda, Jan ;
Smrcka, Pavel ;
Havlas, Vojtech .
WORLD CONGRESS ON MEDICAL PHYSICS AND BIOMEDICAL ENGINEERING 2018, VOL 2, 2019, 68 (02) :773-778
12345