Abstract
At present, the Internet of Things is one of the most promising technologies considering a large number of applications domains. The IoT solutions imply the integration of electronic devices, communication protocols, the cloud as data storage and smart software systems to process the data. The complexity of current IoT solutions has given rise to the creation of IoT platforms to manage the implementation of the solutions, however, one of the most complicated tasks is the configuration of the electronic devices to send information to the cloud through a specific protocol and a specific IoT agent. Currently, this process is done manually and it represents a challenge for novel developers. In this paper a novel approach is presented to automate the connection of IoT devices with a specific Platform using IoT Agents. The evaluation of the proposed approach with users with different development knowledge levels is also presented in the paper.
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References
Bliznakoff del Valle, D.J.: IoT: Tecnologías, usos, tendencias y desarrollo future (2014). http://openaccess.uoc.edu/webapps/o2/bitstream/10609/40044/6/dbliznakoffTFM0115memoria.pdf
FIWARE-ABOUT US, ABOUT US FIWARE (2016). https://www.fiware.org/about-us/
APRENDE FIWARE EN ESPAÑO, Orion Context Broker (2016). https://fiwaretraining.readthedocs.io/es_MX/latest/ecosistemaFIWARE/ocb/
FIWARE, Tuturial time series data (2018). https://github.com/FIWARE/tutorials.IoT-Agent
Alonso, Á., et al.: An identity framework for providing access to FIWARE OAuth 2.0 based services according to the eIDAS European regulation. IEEE Access 7, 88435–88449 (2019). https://doi.org/10.1109/ACCESS.2019.2926556
López-Riquelme, J.A., Pavón-Pulido, N., Navarro-Hellín, H., Soto-Valles, F., TorresSánchez, R.: A software architecture based on FIWARE cloud for precision agriculture. Agric. Water Manag. 183, 123–135 (2017). https://doi.org/10.1016/j.agwat.2016.10.020
Sousa, P.R., Magalhães, L., Resende, J.S., Martins, R., Antunes, L.: Provisioning, authentication and secure communications for IoT devices on FIWARE. Sensors 21(17), 5898 (2021)
Celesti, A., et al.: How to develop IoT cloud e-health systems based on FIWARE: a lesson learnt. J. Sens. Actuator Netw. 8(1), 7 (2019)
Storek, T., Lohmöller, J., Kümpel, A., Baranski, M., Müller, D.: Application of the open-source cloud platform FIWARE for future building energy management systems. In: J. Phys. Conf. Ser. 1343(1), 012063. IOP Publishing (2019)
APRENDE FIWARE EN ESPAÑO, Plataforma FIWARE (2016). https://fiware-training.readthedocs.io/es_MX/latest/ecosistemaFIWARE/plataformaFIWARE/
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Flores-Sedano, J.J., Estrada-Esquivel, H., Rebollar, A.M., Prieto, J.J.J.F. (2023). A New Approach to Automate the Connectivity of Electronic Devices with an IoT Platform. In: Nesmachnow, S., Hernández Callejo, L. (eds) Smart Cities. ICSC-CITIES 2022. Communications in Computer and Information Science, vol 1706. Springer, Cham. https://doi.org/10.1007/978-3-031-28454-0_9
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DOI: https://doi.org/10.1007/978-3-031-28454-0_9
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