Implementation of a Service-Oriented Architecture for Applications in Physical Rehabilitation

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Autores

John Alexander Camacho http://orcid.org/0000-0003-3623-9913
Cristian David Chamorro http://orcid.org/0000-0002-1792-4555
John Alexander Sanabria
Nayiver Gladys Caicedo
José Isidro García

Abstract

Currently, the interest in service-oriented architectures (SOA) has risen due to their structural flexibility, which allows to obtain features such as scalability, fault tolerance, low coupling, and easy integration, among others. In this context, this article presents the implementation of a SOA for tele-operated physical rehabilitation applications; this SOA ensures an effective orchestration of services, adding special functions, such as synchronous tele-operation of machines for physical rehabilitation, in such a way that it can be adapted and implemented by using information and communication technologies (ICT). The implementation of the architecture was validated by means of a test that allowed to analyze the behavior of the web services defined for the application.

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References

W. W. Dai, V. Vyatkin, and J. H. Christensen, “The application of service-oriented architectures in distributed automation systems,” Proc. - IEEE Int. Conf. Robot. Autom., pp. 252-257, 2014. DOI: http://doi.org/10.1109/ICRA.2014.6906618.

E. Demin, S. Patil, V. Dubinin, and V. Vyatkin, “IEC 61499 distributed control enhanced with cloud-based web-services,” in Proc. 2015 10th IEEE Conf. Ind. Electron. Appl. ICIEA 2015, pp. 972-977, 2015. DOI: http://doi.org/10.1109/ICIEA.2015.7334249.

R. Gazzarata, F. Vergari, T. S. Cinotti, and M. Giacomini, “A standardized SOA for clinical data interchange in a cardiac telemonitoring environment,” IEEE J. Biomed. Heal. Informatics, vol. 18 (6), pp. 1764-1774, 2014. DOI: http://doi.org/10.1109/JBHI.2014.2334372.

J. Eliasson, J. Delsing, H. Derhamy, Z. Salcic, and K. Wang, “Towards industrial Internet of Things: An efficient and interoperable communication framework,” in 2015 IEEE International Conference on Industrial Technology (ICIT). pp. 2198-2204, 2015. DOI: http://doi.org/10.1109/ICIT.2015.7125421.

O. Chenaru, A. Stanciu, D. Popescu, V. Sima, G. Florea, and R. Dobrescu, “Open cloud solution for integrating advanced process control in plant operation,” in 2015 23rd Mediterranean Conference on Control and Automation (MED). pp. 973-978, 2015. DOI: http://doi.org/10.1109/MED.2015.7158884.

J. U. Meyer, “Open SOA health web platform for mobile medical apps: Connecting securely mobile devices with distributed electronic health records and medical systems,” in 19th IEEE Int. Conf. Emerg. Technol. Fact. Autom. ETFA 2014, 2014. DOI: http://doi.org/10.1109/ETFA.2014.7005347.

M. B. Doumbouya, B. Kamsu-Foguem, H. Kenfack, and C. Foguem, “Telemedicine using mobile telecommunication: Towards syntactic interoperability in teleexpertise,” Telemat. Informatics, vol. 31 (4), pp. 648-659, 2014. DOI: http://doi.org/10.1016/j.tele.2014.01.003.

“CPM de rodilla OptiFlex® 3.” [Online]. Available: http://international.chattgroup.com/es/productos/cpm-de-rodilla-optiflexr-3. [Accessed: 31-Jul-2017].

“Flex-Mate K500.” [Online]. Available: http://www.klcflexmate.net/devices.html. [Accessed: 31-Jul-2017].

“Artromot-K3.” [Online]. Available: http://www.ormed.djoglobal.eu/en_US/ArtromotK3.html. [Accessed: 31-Jul-2017].

“CPM • Continuous Passive Motion : Spectra.” [Online]. Available: http://kinetec.fr/en/kinetec-selection/cpm-continuous-passive-motion/attelle-kinetec-spectra-detail.html. [Accessed: 31-Jul-2017].

F. Morales, “Puntos clave en la rehabilitación de rodilla - Artículo de Fisioterapia.” [Online]. Available: http://www.efisioterapia.net/articulos/puntos-clave-la-rehabilitacion-rodilla. [Accessed: 31-Jul-2017].

G. Caicedo, and J. I. García, “Diseño y construcción de una unidad de rehabilitación de hombro tele-operada que integra requerimientos de diseño interdisciplinares,” Convoc. interna para la Conform. del banco Proy. Investig. Convoc. 3-2014, 2014.

J. I. García, and G. Caicedo, “Diseño y construcción de una unidad de rehabilitación de rodilla para ser tele-operada que integra requerimientos de diseño interdisciplinares,” Convoc. interna para la Conform. del banco Proy. Investig. Convoc. 3-2014, 2014.

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