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URI permanente desta comunidadehttps://repositorio.fei.edu.br/handle/FEI/342

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Autor: search.filters.author.Rodrigo MaiaAssunto: search.filters.subject.Management platforms

Resultados da Pesquisa

Agora exibindo 1 - 2 de 2
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    Artigo de evento 27 Citação(ões) na Scopus
    SWAMP: Smart Water Management Platform Overview and Security Challenges
    (2018-07-19) KAMIENSKI, C.; KLEINSCHMIDT, J. H.; SOININEN, J-P.; KOLEHMAINEN, K.; ROFFIA, L.; VISOLI, M.; Rodrigo Maia; Fernandes S.
    © 2018 IEEE.The intensive use of technology in precision irrigation for agriculture is getting momentum in order to optimize the use of water, reduce the energy consumption and improve the quality of crops. Internet of Things (IoT) and other technologies are the natural choices for smart water management applications, and the SWAMP project is expected to prove the appropriateness of IoT in real settings with the deployment of on-site pilots. At the same time, the more intense the use of technology is, agriculture turns new security risks, which may affect both crop development and the commodities market. A security breach may irreversibly compromise a crop and data eavesdropping may compromise price and contracts exposing sensitive data such crop quality, development or management. This paper discusses security challenges and technologies for the application of IoT in agriculture and indicates that one of the most relevant challenges to be handled in SWAMP project is dealing with the multitude of behaviors from IoT application and what would be considered as normal and what would be considered as a threat.
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    Artigo de evento 62 Citação(ões) na Scopus
    SWAMP: An IoT-based smart water management platform for precision irrigation in agriculture
    (2018-11-13) KAMIENSKI, C.; SOININEN, J. - P.; TAUMBERGER, M.; FERNANDES, S.; TOSCANO, A.; CINOTTI, T. S.; Rodrigo Maia; TORRE NETO, A.
    © 2018 IEEE.Irrigation for agriculture is the biggest consumer of freshwater in the world, which makes a case for the intensive use of technology to optimize the use of water, reduce the consumption of energy and improve the quality of crops. While the Internet of Things (IoT) and other associated technologies are the natural choice for smart water management applications, their appropriateness is still to be proven in real settings with the deployment of on-site pilots. Also, IoT-based application development platforms should be generic enough to be adapted to different crops, climates, and countries. The SWAMP project develops IoT based methods and approaches for smart water management in precision irrigation domain and pilots them in Italy, Spain, and Brazil. In this paper, we present the SWAMP view, architecture, pilots and the scenario-based development process adopted in the project.