Internet of Things-Aided Smart Home Off-Grid Photovoltaic-Powered

Authors

  • Layse Pereira do Nascimento Federal Rural University of Amazonia (UFRA)
  • Joice Machado Martins Federal Rural University of Amazonia (UFRA)
  • Caio Castro Rodrigues Federal Rural University of Amazonia (UFRA)
  • Rhuan Carlos Martins Ribeiro Federal Rural University of Amazonia (UFRA)
  • Glauber Tadaiesky Marques Federal Rural University of Amazonia (UFRA)
  • Emerson Cordeiro Morais Federal Rural University of Amazonia (UFRA)
  • Walmir Oliveira Couto Federal Rural University of Amazonia (UFRA)
  • Pedro Silvestre da Silva Campos Federal Rural University of Amazonia (UFRA)
  • Otavio Andre Chase Amazonia Federal Rural University (UFRA) https://orcid.org/0000-0003-0246-8339
  • José Felipe Souza de Almeida Federal Rural University of Amazonia (UFRA)

DOI:

https://doi.org/10.31686/ijier.vol8.iss5.2277

Keywords:

Control Platform, Domotic System, Internet of Things, Smart off-Grid

Abstract

Nowadays, smart devices which can be controlled remotely by the Internet appear in the preference setting rather than the manual control to improve the standard of living. In this paper, a domotic system integrated into PV power generation has been developed on the Internet of Things (IoT). The system uses sensors for fire detection and monitoring of the temperature and relative air humidity. Based on real-time, the home automation off-grid system is developed so that makes the system cost-effective and portable.

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References

[1] B. Koyuncu, “PC Remote Control of Appliances by Using Telephone Lines,” IEEE Transactions on Consumer Electronics, 1995, pp. 201-209.
[2] M.N.R. Khan, M.R. Hasan, “Designing A Home Automation System by Using RF Receivers,” International Journal of Advance Research and Innovative Ideas in Education (IJARIIE), 2017, pp. 2318-2323.
[3] S.E. Collier, “The emerging Enernet: Convergence of the Smart Grid with the Internet of Things,” IEEE Industry Applications Magazine, 2017, pp. 12-16.
[4] A. P. Vancea and I. Orha, “Smart Home Automation and Monitoring System,” Carpathian Journal of Electronic and Computer Engineering, 2018, pp. 40-43.
[5] B.S. Afonso, R.O.B. Pereira and M.F.L. Pereira, “Use of the Internet of Things for the Development of Low-cost Training in the Monitoring Weather Conditions in Agricultural Areas,” In: SBC ERI-MT, 2015, pp. 183-189.
[6] D.S. Cruz, C.C. Rodrigues, O.A. Chase, D.G. Araujo and J.F. Almeida, “IoT-based Smart Mini Greenhouse,” International Journal for Innovation Education and Research, 2019, pp. 31-37.
[7] F. Mattern, C. Floerkemeier, “From the Internet of Computers to the Internet of Things. From Active Data Management to Event-based Systems and More,” Springer, 2010, pp. 242-259.
[8] R. Piyare, “Internet of Things: Ubiquitous Home Control and Monitoring System Using Android Based Smart Phone,” International Journal of Internet of Things, 2013, pp. 5-11.
[9] C. Chilipirea, A. Ursache, D. Popa and F. Pop, “Energy Efficiency and Robustness for IoT: Building a Smart Home Security System,” 2016 IEEE 12th International Conference on Intelligent Computer Communication and Processing, 2016, pp. 43-48.
[10] B. Arbab-Zavar, E.J. Palacios-Garcia, J.C. Vasquez and J.M. Guerrero, “Smart Inverters for Microgrid Applications: A Review,” Energies, 2019, pp. 2-22.
[11] O.A. Chase, A.N. Carvalho, E.S.S. Andrade, C.T. Costa Junior, J.F. Almeida, “Environmental Measurement Technology: An approach to the Amazonian Environment,” IEEE Latin America Transactions, 2018, pp. 1036-1041.
[12] I. Serban and C. Marinescu, “Battery Energy Storage System for Frequency Support in Microgrids and with Enhanced Control Features for Uninterruptible Supply of Local Loads,” International Journal of Electrical Power &Energy Systems, 2014, pp. 432-441.
[13] A.P. Mahesh, Patel, D.R Vyas, A. Patel, K.M. Patel, “Use of PWM Techniques for Power Quality Improvement,” International Journal of Recent Trends in Engineering. 2009, pp. 99-102.
[14] Rodrigues, C.C., J.M. Martins, L.P. Nascimento, J.V.N.S.Q. Maciel, O.A. Chase and J.F. Almeida, IoT Control and Acquisition Platform Integrated with Photovoltaic Power Generation System. In: Rezende, J.O. (Org.). Energia Elétrica e Sustentabilidade, 2018, pp. 247-257.
[15] J.K. Phipps, Nelson, J.P. Nelson, P.K. Sen, “Power Quality and Harmonic Distortion on Distribution Systems”, IEEE Transactions on Industry Applications, 1994, pp. 476-485

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Published

2020-05-01

Issue

Vol. 8 No. 5 (2020): International Journal for Innovation Education and Research

Section

Journal Articles

License

Copyright (c) 2020 Layse Pereira do Nascimento, Joice Machado Martins, Caio Castro Rodrigues, Rhuan Carlos Martins Ribeiro, Glauber Tadaiesky Marques, Emerson Cordeiro Morais, Walmir Oliveira Couto, Pedro Silvestre da Silva Campos, Otavio Andre Chase, José Felipe Souza de Almeida

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How to Cite

Nascimento, L., Machado, J., Rodrigues, C. ., Ribeiro, R., Marques, G., Morais, E., Couto, W., Campos, P., Chase, O., & Almeida, J. F. (2020). Internet of Things-Aided Smart Home Off-Grid Photovoltaic-Powered. International Journal for Innovation Education and Research, 8(5), 29-42. https://doi.org/10.31686/ijier.vol8.iss5.2277
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