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dc.creatorAriza Colpas, Paola Patricia
dc.creatorSanchez Moreno, Hernando
dc.creatorPineres-Melo, Marlon
dc.creatorMorales Ortega, Roberto
dc.creatorAyala-Mantilla, Cristian
dc.creatorVillate-Daza, Diego
dc.creatorDe-La-Hoz-Franco, Emiro
dc.creatorCOLLAZOS MORALES, CARLOS ANDRES
dc.date.accessioned2020-04-21T15:16:35Z
dc.date.available2020-04-21T15:16:35Z
dc.date.issued2020
dc.identifier.issn1877-0509
dc.identifier.urihttps://hdl.handle.net/11323/6230
dc.description.abstractThis article aims to show the components of a wireless sensor system to measure temperature, conductivity and pressure at the mouth of the Magdalena River - Colombia. This analysis was carried out jointly with the General Maritime Directorate of Colombia. The measurements will be carried out underwater, with the buoys currently available in the navigable channel, which will work with solar energy and the data will be sent via Bluetooth, Wifi or Ethernet. With the data received by the sensor network, different analyzes will be carried out through the implementation of different data mining techniques, which will support the decision making of government entities. Through the implementation of this architecture, different behaviors found in the estuary will be identified and there will be real-time information that favors maritime safety in the navigable channel.spa
dc.language.isoengspa
dc.publisherProcedia Computer Sciencespa
dc.rightsCC0 1.0 Universal*
dc.rights.urihttp://creativecommons.org/publicdomain/zero/1.0/*
dc.subjectWireless systemspa
dc.subjectConductivity sensorspa
dc.subjectTemperature sensorspa
dc.subjectPressure sensorspa
dc.titleImplementation of a wireless system architecture of conductivity temperature and pressure sensors for support the identification of the salt wedge and its impact on safety Maritime in estuary of the Magdalena River - A case studyspa
dc.title.alternativeImplementation of a wireless system architecture of conductivity temperature and pressure sensors for support the identification of the salt wedge and its impact on safety Maritime in estuary of the Magdalena River - A case studyspa
dc.typeArticlespa
dcterms.referencesAtlantic Governorate Departmental Atlantic Leader Development Plan. Available in: http://www.atlantico.gov.co/images/stories/plan_desarrollo/plan_de_desarrollo_2016_2016_definiti vo.pdfspa
dcterms.referencesAkyldiz, I.F., Pompili, D., & Melodia, T. (2005). Underwater acoustic sensor networks. Ad Hoc networks.spa
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dcterms.referencesOng, K.G., Yang, X., Mukherjee, N., Wang, H., Surender, S., & Grimes, C.A. (2004). A Wireless Sensor Network for Long-term Monitoring of Aquatic Environments: Design and Implementation. Sensor Letters, 48-57.spa
dcterms.referencesTrevathan, J., Johnstone, R., Chiffings, T., Atkinson, I., Bergmann, N., Read, W.,... Stevens, T. (2012). SEMAT — The Next Generation of Inexpensive Marine Environmental Monitoring and Measurement Systems. sensors, 9711-9748.spa
dcterms.referencesAbdou, A.A., Shaw, A., Mason, A., Al-Shamma’a, A., Cullen, J., & Wylie, S. (2011). Electromagnetic (EM) wave propagation for the development of an Underwater Wireless Sensor Network (WSN). Paper presented at the sensorsspa
dcterms.referencesAriza-Colpas, P., Morales-Ortega, R., Piñeres-Melo, M.A., Melendez-Pertuz, F., Serrano-Torné, G., Hernandez-Sanchez, G., & Martínez-Osorio, H. (2019, September). Teleagro: iot applications for the georeferencing and detection of zeal in cattle. In IFIP International Conference on Computer Information Systems and Industrial Management (pp. 232-239). Springer, Cham.spa
dcterms.referencesAriza-Colpas P., Morales-Ortega R., Piñeres-Melo M.A., Melendez-Pertuz F., Serrano-Torné G., Hernandez-Sanchez G., Collazos-Morales C. Teleagro: Software Architecture of Georeferencing and Detection of Heat of Cattle Workshop on Engineering Applications, Springer, Cham (2019), pp. 159-166 (October).spa
dc.rights.accessrightsinfo:eu-repo/semantics/openAccessspa
dc.identifier.doihttps://doi.org/10.1016/j.procs.2020.03.070
dc.type.hasversioninfo:eu-repo/semantics/publishedVersionspa


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