Show simple item record

dc.contributor.authorViloria, Amelec
dc.contributor.authorVarela, Noel
dc.contributor.authorHerazo-Beltran, Yaneth
dc.contributor.authorPineda Lezama, Omar Bonerge
dc.description.abstractThe main goal of this research is to facilitate the connection of sensors, people and objects to build a centralized community with parameter measurement applications, where people can share and analyze sensor data in real-time. For example, public institutions that plan, regulate and control land transport, traffic and road safety, and that aim to increase the level of road safety, would be able to prevent traffic accidents by monitoring public transport vehicles in real-time. To obtain real-time data, transport units would be installed with biosensors and a video camera, which would send a series of data automatically for storage and processing in the sensor cloud. The data will allow the recognition of facial expressions and the analysis of physiological variables to determine the driver’s mood, according to which immediate actions will be taken to control this variable; and through an audible alarm or a led screen, the actions to be taken by the driver or the passenger would be explained, and even an automatic setting of the interior of the vehicle can be carried out and the emergency units informed according to the
dc.publisherCorporación Universidad de la Costaspa
dc.rightsAttribution-NonCommercial-NoDerivatives 4.0 International*
dc.sourceAdvances in Intelligent Systems and Computingspa
dc.subjectCloud computingspa
dc.subjectSensor cloudspa
dc.titleDesign of a network with sensor-cloud technology applied to traffic accident preventionspa
dc.typeArtículo de revistaspa
dcterms.references1.Ye Q, Zhuang W (2017) Distributed and adaptive medium access control for Internet-of-Things-enabled mobile networks. IEEE Internet Things J 4(2):446–460spa
dcterms.references2.Agencia Nacional de Regulación y Control del Transporte Terrestre (2015) Proyecto Seguridad Integral para el Transporte Público y Comercial. Ecuadorspa
dcterms.references3.Delgado C et al (2018) Joint application admission control and network slicing in virtual sensor networks. IEEE Internet Things J 5(1):28–43spa
dcterms.references4.Alamri A, Shadab Ansari W, Mehedi Hassan M, Shamim Hossain M, Alelaiwi A, Anwar Hossain M (2013) A survey on sensor-cloud: architecture, applications, and approaches. Int J Distrib Sens Netw 9(2)spa
dcterms.references5.Giraldo MA(Mayo de 2013) Estudio y Simulación de Redes Ad-Hoc Vehiculares VANETS. Universidad Católica de Pereira Ingeniería de Sistemas y Telecomunicacionesspa
dcterms.references6.Hernandez J (2014) AutoEmotive, bringing empathy to the driving experience to manage stress. MIT Media Lab, Cambridgespa
dcterms.references7.Hernández JV (2010) Redes inalámbricas de sensores: una nueva arquitectura eficiente y robusta basada en jerarquía dinámica de grupos. Editorial Universitat Politècnica de València, Valenciaspa
dcterms.references8.Beng LH (2009) Sensor cloud: towards sensor-enabled cloud services. Intelligent Systems Center Nanyang Technological Universityspa
dcterms.references9.Consuegra MC (2014) Conectando los vehículos a Internet en el sistema de transporte inteligente estandarizado por el ETSI. Departamento de Ingeniería Telemática, Leganésspa
dcterms.references10.ESEC (2014) Introducción a las Redes de Sensores Inalámbricas. Plataforma Tecnológica Española, Españaspa
dcterms.references11.Misra S, Chatterjee S, Obaidat MS (2017) On theoretical modeling of sensor cloud: a paradigm shift from wireless sensor network. IEEE Syst J 11(2):1084–1093spa
dcterms.references12.Fundación Comisariado Europeo del Automóvil (2015) Informe sobre la influencia de la fatiga y el sueño en la conducción. Fundación CEA. Recuperado despa
dcterms.references13.Ibañez P (2011) Sistemas de detección en los coches para evitar accidentes.
dcterms.references14.Joyanes L (2012) Computación en la nube. Estrategias de Cloud Computing en las empresas. Alfaomegaspa
dcterms.references15.Bharat KS, Priyanka AN (2014) Sensor information management using cloud computing. Int J Comput Appl 103(14)spa
dcterms.references16.Zanella A, Bui N, Castellani A, Vangelista L, Zorzi M (2014) Internet of things for smart cities. IEEE Internet Things J. 1(1):22–32spa
dcterms.references17.Roberto Fernández Martínez JO (2009) Redes inalámbricas de Sensores: Teoría y Aplicación Práctica. España: Grupo de Investigación EDMANS-Universidad de la Riojaspa
dcterms.references18.Scanaill MJ (2013) Sensor technologies, healthcare, wellness and environmental applications. Apress open. Int J Comput Appl 14(103):14–22spa
dcterms.references19.Kelion L (2014) Crean dispositivo que detecta las emociones humanas a partir de la piel. BBC News. Recuperado de 1–
dcterms.references20.Mell P, Grance T (2011) The NIST definition of cloud computing. Recommendations of the National Institute of Standards and Technology. National Institute of Standards and Technology, 800–845. Recuperado despa
dcterms.references21.Mohapatra S (2014) The scalable architecture for future generation computing. Department of Computer Science and Engineering. National Institute of Technology, Springer, India, pp 963–974spa
dcterms.references22.Dinh T, Kim Y (2017) An efficient sensor-cloud interactive model for on-demand latency requirement guarantee. In: 2017 IEEE International Conference on Communications (ICC). pp 1–6spa
dcterms.references23.Peñaherrera AF (2009) Pago electrónico a través de teléfonos móviles. ESPOL, Guayaquil, pp 85–96spa
dcterms.references24.Amelec V (2015) Increased efficiency in a company of development of technological solutions in the areas commercial and of consultancy. Adv Sci Lett 21(5):1406–1408spa
dcterms.references25.Viloria A, Robayo PV (2016) Inventory reduction in the supply chain of finished products for multinational companies. Indian J Sci Technol 8(1):47–55spa

Files in this item


This item appears in the following Collection(s)

  • Artículos científicos [2634]
    Artículos de investigación publicados por miembros de la comunidad universitaria.

Show simple item record

Attribution-NonCommercial-NoDerivatives 4.0 International
Except where otherwise noted, this item's license is described as Attribution-NonCommercial-NoDerivatives 4.0 International