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dc.creatorNuñez-Alvarez, J. R.
dc.creatorBenítez-Pina, I. F.
dc.creatorLlosas Albuerne, Yolanda
dc.description.abstractIn laboratories new systems are created where researchers hope to obtain improved functions at a reasonable cost. In them, specialists need efficient tools that offer better performance and flexible features. This paper designs and implements a SCADA system for GERA laboratory (Scientific Group for Applied Renewable Energy at the University of Oriente) adjusted to the inherent characteristics of flexibility and functionality required in research centers. All these features are supported in an efficient communication system with the implementation of various protocols and novel solutions for this type of systems for monitoring and control. It verifies and validates the system for formal
dc.publisherIOP Conference Series: Materials Science and Engineeringspa
dc.rightsCC0 1.0 Universal*
dc.subjectRenewable energyspa
dc.subjectFlexible supervisorspa
dc.titleCommunications in flexible supervisor for laboratory research in renewable energyspa
dcterms.references[1] Valencia G, Nuñez J and Duarte J 2019. Multiobjective Optimization of a Plate Heat Exchanger in a Waste Heat Recovery Organic Rankine Cycle System for Natural Gas Engines. Entropy. 21(7), 655;
dcterms.references[2] Pérez López E 2015. Los sistemas SCADA en la automatización industrial. Tecnología en Marcha. vol. 28, no. 4, pp. 3–14spa
dcterms.references[3] Romero A, Marín A and Jiménez J. A 2014. SCADA System for Detection of Explosive Atmospheres in Underground Coal Mines Through Wireless Sensor Network. IEEE Latin America Transactions. vol. 12, no. 8, pp. 1398-1403spa
dcterms.references[4] Minchala L. I, Sánchez C, Yungaicela N, Mora A and Mata J. A 2016. Comparative Study Of Black – Box Models For Cement Fineness Prediction Using SCADA Measurement of a Closed Circuit Grinding. IEEE Latin America Transactions. vol. 14, no. 2, pp. 673-680spa
dcterms.references[5] Vega-de la Cruz L, Lao León Y, and Pérez Pravia, M 2016. Redes de Petri en la Determinación de Puntos Críticos para el Control Interno. Revista Universidad y Sociedad. 8(4), 219-226spa
dcterms.references[6] Castellanos J. S and Solaque L. E 2010. Modeling with Petri Nets and Implementation with Grafcet of a Flexible Manufacturing System with Concurrent Processes and Shared Resource. Ciencia e Ingeniería Neogranadina, Vol. 20-1, pp. 61-75spa
dcterms.references[7] David R and Alla H 2010. Discrete, Continuous and Hybrid Petri Nets. Editorial Berlin Springer. Book. 337 pages. ISBN 978-3-642-10669-9spa
dcterms.references[8] Silva M and Recalde L 2007. Redes de petri continuas: Expresividad, análisis y control de una clase de sistemas lineales conmutados. IEEE Latin America Transactions vol 4, no. 3, pp. 5-33spa
dcterms.references[9] Quesada J. Carlos, Flores E, Bautista J and Quezada V 2014. Diseño e implementación de un sistema de control y monitoreo basado en HMI-PLC para un pozo de agua potable. Ingeniería, Investigación y Tecnología. vol.15 no.1, pp.41-50spa
dcterms.references[10]Acebes L. F, Merino A, Alves R and Prada C 2009. Análisis en Línea del Estado Energético de Plantas Azucareras. Revista Iberoamericana de Automática e Informática Industrial, [S.l.], v. 6, n. 3, p. 68-75. ISSN 1697-7920spa
dcterms.references[11] Rendón A, Fuerte C. R and Calderón J. G 2015. State Estimation of Electrical Power Grids Incorporating SCADA and PMU Measurements. IEEE Latin America Transactions. vol. 13, no. 7, pp. 2245-225spa
dcterms.references[12] González I, Calderón A. J, Figueredo J and Sousa J. M 2019. A Literature Survey on Open Platform Communications (OPC) Applied to Advanced Industrial Environments. Electronics. 8, 510; doi:10.3390/electronics8050510spa
dcterms.references[13] Sasián F, Theron R and Gachet D 2016. Protocolo para comunicación inalámbrica en instalaciones de energías renovables. Revista Iberoamericana de Automática e Informática Industrial RIAI. vol 13. Issue 3. pp 310-321spa
dcterms.references[14] Silva J. R, Benítez I, Villafruela L, Gomis O and Sudriá A 2008. Modeling extended Petri nets compatible with GHENeSys IEC61131 for industrial automation. The International Journal of Advanced Manufacturing Technology. vol 36, Isuee 11-12, pp. 1180-1190spa
dcterms.references[15] Valencia G, Nuñez, J., Acevedo, C. (2019). Research Evolution on Renewable Energies Resources from 2007 to 2017: A Comparative Study on Solar, Geothermal, Wind and Biomass Energy. International Journal of Energy Economics and Policy. 9(6), 242-253. DOI:
dcterms.references[16] Salazar C. A and Correa L. C 2011. Buses de campo y protocolos en redes industriales. Ventana Informática. 25. 83-109spa
dcterms.references[17] Pedraza L, Hernández-Suárez C. A, Alfonso D and López-Sarmiento 2013. Sistema de comunicación TCP/IP para el control de una intersección de tráfico vehicular. Ingeniería, Investigación y Tecnología. 2. 10.1016/S1405-7743(13)72268-6spa
dcterms.references[18] Caicedo-Erasoa J. C, Varón-Sernab D. R and Díaz Arango F. O 2012. Redes Industriales. Vector. 7, 12-17spa
dcterms.references[19] Custodio A, Urdaneta E, Barreto A and Oviedo A 2014. Sistema Electrónico de Adquisición y Entrega de Datos para Laboratorios de Enseñanza que puedan incorporarse a Entornos Virtuales de Aprendizaje. Congreso Iberoamericano de Ciencia, Tecnología, Innovación y Educación. ISBN: 978-84-7666-210-6 – Artículo 371spa
dcterms.references[20] Quiles F, Ortiz M. A, Moreno D and Brox M 2009. ADQPCI: Placa de Adquisición de Datos con Fines Docentes. Formación universitaria. 2(3), 25-30. 50062009000300005spa
dcterms.references[21]Núñez Alvarez, José Ricardo et al. Metodología de diagnóstico de fallos para sistemas fotovoltaicos de conexión a red. Revista Iberoamericana de Automática e Informática industrial, [S.l.], sep. 2019. ISSN 1697-7920. Disponible en: <>spa
dcterms.references[22]Leal D. L, Celi M. R and Alvarez E 2016. Sistema integral para el diseño e implementación de control asistido por computadora. Revista Iberoamericana de Automática e Informática Industrial RIAI. 2016. 13. 228–237spa
dcterms.references[23] Minchala I, Ochoa S, Velecela E, Astudillo D and González J 2016. An open source SCADA system to implement advanced computer integrated manufacturing. IEEE Latin America Transactions. 14. 4657-4662. 10.1109/TLA.2016.7816994spa
dcterms.references[24] Benítez I. F, Lamar S, da Silva M, Miyagi E, Silva J. R 2017. Design of automatic control system based on unified timed hybrid Petri net. DYNA. Volumen 84, Número 200, p. 80-89. ISSN electrónico 2346-2183. ISSN impreso 0012-7353spa
dcterms.references[25] Munir A, Gordon-Ross A and Ranka S 201. Modeling and optimization of parallel and distributed embedded systems. Wiley-IEEE Press. 400 pages. ISBN: 978-1-119-08639-0spa

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