Application of standard web services for the automatic hydrometeorology monitoring, integrating information from diverse sensors using ontologies
DOI:
https://doi.org/10.29019/enfoqueute.v9n1.239Keywords:
SWE, ontologías, monitoreo hidrometeorológico, alertas tempranas, sensores webAbstract
The last developments in worlwide technology and the continuous grow in telecommunications have resulted in the requirement to make available the information generated by a number of devices, especially for those that incorporate sensors, with the goal of reacting to any relevant events that could occur. The latest advances in this area have resulted in the development of several devices with heterogeneous types and from different vendors. This paper presents a proposal for an architecture that integrates serveral standard web services for the compilation, organization and storage of the information generated by a network of hydrometeorology sensors. Likewise, the paper proposes the application of standard services for controling remotely these sensors and for managing events and generating early warnings. The aforementioned web services are some examples of the set of services that form the Sensor Web Enablement standard. Considering the diversity, both in type and vendor, that is typically found
Downloads
References
°North. (2016). 52°North.
North. (n.d.). 52N Sensor Web Community - Sensor Event Service - SES - Web-based Complex Event Processing. Retrieved August 25, 2017, from http://52north.org/communities/sensorweb/ses/0.0.1/index.html
North. (n.d.). 52N Sensor Web Community - Sensor Planning Service (SPS). Retrieved August 25, 2017, from http://52north.org/communities/sensorweb/sps/1.0.0/
North. (n.d.). 52N Sensor Web Community - Web Notification Service (WNS). Retrieved August 25, 2017, from http://52north.org/communities/sensorweb/wns/1.0.0/
Botts, M., Percivall, G., Reed, C., & Davidson, J. (2008). OGC ® Sensor Web Enablement : Overview and High Level Architecture, 175-190.
Bröring, A., Echterhoff, J., Jirka, S., Simonis, I., Everding, T., Stasch, C., … Lemmens, R. (2011). New generation Sensor Web Enablement. Sensors (Vol. 11). https://doi.org/10.3390/s110302652
Calbimonte, J., Jeung, H., Corcho, O., & Aberer, K. (2011). Semantic Sensor Data Search in a Large-Scale Federated Sensor Network.
Compton, M., Barnaghi, P., Bermudez, L., Garca, R., Corcho, O., Cox, S., & Graybeal, J. (2011). The SSN Ontology of the Semantic Sensor Networks Incubator Group, 1-6.
Compton, M., Barnaghi, P., Bermudez, L., García-Castro, R., Corcho, O., Cox, S., … Taylor, K. (2012). The SSN ontology of the W3C semantic sensor network incubator group. Web Semantics: Science, Services and Agents on the World Wide Web, 17, 25-32. https://doi.org/10.1016/j.websem.2012.05.003
Cox, S. J. D. (2017). Ontology for observations and sampling features, with alignments to existing models. Semantic Web, 8(3), 453-470. https://doi.org/10.3233/SW-160214
De Longueville, B., Annoni, A., Schade, S., Ostlaender, N., & Whitmore, C. (2010). Digital Earth's Nervous System for crisis events: real-time Sensor Web Enablement of Volunteered Geographic Information. International Journal of Digital Earth, 3(3), 242-259. https://doi.org/10.1080/17538947.2010.484869
Degrossi, L. C., Amaral, G. G., Vasconcelos, E. S. M. De, Albuquerque, J. P. De, & Ueyama, J. (2013). Using Wireless Sensor Networks in the Sensor Web for Flood Monitoring in Brazil. Proceedings of the 10th International ISCRAM Conference - Baden-Baden, Germany, May 2013, (May), 458-462.
Jirka, S., Bröring, A., & Stasch, C. (2009). Discovery Mechanisms for the Sensor Web. Sensors, 9(4), 2661-2681. https://doi.org/10.3390/s90402661
Machado-García, N., González-Ruiz, L., & Balmaseda-Espinosa, C. (2014). Recuperación de objetos geoespaciales utilizando medidas de similitud semántica Recovery geospatial objects using semantic similarity measures. Revista Cubana de Ciencias Informáticas, 8(2), 132-143.
Muñoz Guillén, L., Medina Cartuche, J., Guillermo Aungüisaca, J., & Veintimilla-Reyes, J. (2016). Arquitectura para una red de sensores web basada en SWE ( Sensor Web Enablement ): Caso de estudio para la implementación en sensores hidrometeorológicos. MASKANA, Actas Cong(1), 129-138.
Quiñones-Cuenca, M., González-Jaramillo, V., Torres, R., & Jumbo, M. (2017). Sistema De Monitoreo de Variables Medioambientales Usando Una Red de Sensores Inalámbricos y Plataformas De Internet De Las Cosas. Enfoque UTE, 8(1), 329. https://doi.org/10.29019/enfoqueute.v8n1.139
Rodríguez, T., Santos, R. Dos, & Aguilar, J. (2017). Metodología para el Desarrollo de Aplicaciones Web Utilizando Datos Enlazados. Conferencia Nacional de Computación, Informática Y Sistemas (CoNCISa 2017), 978-980.
Rouached, M., Baccar, S., & Abid, M. (2012). RESTful Sensor Web Enablement Services for Wireless Sensor Networks. 2012 IEEE Eighth World Congress on Services, 65-72. https://doi.org/10.1109/SERVICES.2012.48
Sanchez Fleitas, N., Comas Rodriguez, R., Garcia Lorenzo, M. M., & Riverol Quesada, A. (2016). Data model management, with the use of artificial intelligence, for a geographic information system in the energetic sector. Enfoque Ute, 7(3), 95-109.
Veintimilla-Reyes, J., & Avila, F. (2015). Análisis e implementación de una Infraestructura de Datos Espaciales ( IDE ). Caso de estudio : Gobierno Autónomo Descentralizado Municipal del catón Guachapala. Revista Tecnológica ESPOL - RTE, 28(Septiembre), 79-99.
Veintimilla-Reyes, J., Guillermo, J., Vanegas, P., & Estrella, R. (2017). Integración de servicios SWE para el control de sensores remotos aplicada al monitoreo hidrometeorológico. In INCISCOS 2017.
Veintimilla-Reyes Jaime, & Capelo Patricio. (2014). Diseño e implementación de un datalogger para la transmisión de sensores remotos de lluvia por medio de una red GSM o GPRS Introducción Componentes Sensor de lluvia. Revista Tecnológica ESPOL - RTE, 27(Diciembre), 55-66.
Published
How to Cite
Issue
Section
License
The articles and research published by the UTE University are carried out under the Open Access regime in electronic format. This means that all content is freely available without charge to the user or his/her institution. Users are allowed to read, download, copy, distribute, print, search, or link to the full texts of the articles, or use them for any other lawful purpose, without asking prior permission from the publisher or the author. This is in accordance with the BOAI definition of open access. By submitting an article to any of the scientific journals of the UTE University, the author or authors accept these conditions.
The UTE applies the Creative Commons Attribution (CC-BY) license to articles in its scientific journals. Under this open access license, as an author you agree that anyone may reuse your article in whole or in part for any purpose, free of charge, including commercial purposes. Anyone can copy, distribute or reuse the content as long as the author and original source are correctly cited. This facilitates freedom of reuse and also ensures that content can be extracted without barriers for research needs.
This work is licensed under a Creative Commons Attribution 3.0 International (CC BY 3.0).
The Enfoque UTE journal guarantees and declares that authors always retain all copyrights and full publishing rights without restrictions [© The Author(s)]. Acknowledgment (BY): Any exploitation of the work is allowed, including a commercial purpose, as well as the creation of derivative works, the distribution of which is also allowed without any restriction.
Enfoque UTE - Facultad de Ciencias de la Ingeniería e Industrias - Universidad UTE
