Implementação de Luva Inteligente para Avaliações Funcionais nos Testes de Preensão Palma Ponta-a-Ponta
Abstract
In daily activities, we demand to move several organs that are coordinated by a network of body systems (muscular, nervous and osseous). In the Functional Evaluations(FE), several tests are performed, among them there is the palmar grip that analyzes the behavior of corpora systems and offers feedback to patients about possible command failures. Thus, in this work we implemented a glove, using Velostat, to assist Physiotherapists in end-to-end palmar grip tests, offering results with muscle strength progression and touch sensitivity identification. Tests were performed to determine the viability and function of the glove. In addition, we perform detailed examinations on ”normal”people.
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Celestine Preetham, Girish Ramakrishnan, S. K. A. T. and Krishnapura, N. (2013). Hand talk- implementation of a gesture recognizing glove. IEEE.
Dario Guida, A. B. and Database, P. (2017). A weightbit: An advancement in wearable technology. IEEE, pages 672 – 677.
Edoardo Battaglia, Matteo Bianchi, A. A. and Catalano, M. G. (2016). Thimblesense: A fingertip-wearable tactile sensor for grasp analysis. IEEE, 9(1):121– 133.
Eliasz Engelhardt, Sonia M.T. Brucki, J. L. S. C. O. V. F. J. L. F. A. V. (2005). Treatment of alzheimer’s disease: recommendations and suggestions of the scientific depart m e n t of cognitive neurology and aging of the brazilian academy of neurology. Scielo, 4. Eunseok Jeong, J. L. and Kim, D. (2008). Finger-gesture recognition glove using velostat. IEEE, 38(4):206–210.
Giovanelli, D. and Farella, E. (2016). Force sensing resistor and evaluation of technology for wearable body pressure sensig. Hindawi, page 313.
Hangxin Liu, Xu Xie, M. M. M. E. (2017). A glove-based system for studying handobjetic manipulation via join pose and force sensing. IEEE, pages 6617 – 6624.
Kapandji, A. (2000). Fisiologia articular: esquemas comentados de mecânica humana. Panamericana, pages 174–295.
Masoud Kalantari, J. D. and Kovecses, J. (2012). A new approach for modeling piezoresistive force sensors based on semiconductive polymer composites. IEEE, 17:572–581.
Shyamal Patel, Richard Hughes, T. H. J. S. M. A. and Bonato, J. G. D. P. (2010). A novel approach to monitor rehabilitation outcomes in stroke survivors using wearable technology. IEEE, 98:450 – 461.
Z. Del Prete, L. Monteleone, R. S. Z. D. P. L. M. and R.Steindler (2001). A novel pressure array sensor based on contact resistance variation: Metrological properties. SCIENTIFIC INSTRUMENTS, 72(2):1548.
Published
2018-10-16
How to Cite
VELOSO, Artur ; JUNIOR, Halysson ; AMORIM, Nicole ; OLIVEIRA, Davi ; RODRIGUES, Antonio ; OLIVEIRA, Regenildo ; FREDERICSON, Jorge ; SOBRAL, Jose .
Implementação de Luva Inteligente para Avaliações Funcionais nos Testes de Preensão Palma Ponta-a-Ponta. In: REGIONAL SCHOOL ON INFORMATICS OF PIAUÍ (ERI-PI), 4. , 2018, Teresina.
Anais [...].
Porto Alegre: Sociedade Brasileira de Computação,
2018
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p. 38 - 43.
