Implementação de um controle em Real-Time para Sistemas Hidroponicos NFT e aquaponia utilizando Broker MQTT e tecnologias de IoT
Resumo
A proposta do presente trabalho foi usar o ESP8266 nodeMCU wifi com a API Admin IoT para a automação do controle e monitoramento do cultivo de culturas hidropônicas da técnica NFT (Nutrient Film Technique ou Técnica do Fluxo Laminar) e aquaponia em Real-Time (tempo real). Apresentamos o modelo de automação em formato de protótipo. O experimento constatou que seu funcionamento é de grande importância na automação, pois além de dar comodidade aos proprietários dos cultivos de culturas hidropônicas, abrange uma grande facilidade na administração de seus componentes e desenvolvimento do cultivo.
Referências
Egídio, N. B. and Levy, B. P. (2013). As técnicas de hidroponia. Anais da Academia Pernambucana de Ciência Agronômica, 8:107–137.
Helmy, H., Nursyahid, A., Setyawan, T. A., and Hasan, A. (2016). Nutrient film technique (nft) hydroponic monitoring system. JAICT, 1(1).
Nishimura, T., Okuyama, Y., and Satoh, A. (2016). High-accuracy and low-cost sensor module for hydroponic culture system. In 2016 IEEE 5th Global Conference on Consumer Electronics, pages 1–4. IEEE.
Okumura, T., Takano, K., Saito, Y., Takahashi, K., Takaki, K., Satta, N., and Fujio, T. (2016). Development and pilot test of sterilization system using discharge reactor for hydroponics solution. In 2016 IEEE International Conference on Plasma Science (ICOPS), pages 1–1. IEEE.
Oteafy, S. M. and Hassanein, H. S. (2017). Resilient iot architectures over dynamic sensor networks with adaptive components. IEEE Internet of Things Journal, 4(2):474–483.
Peuchpanngarm, C., Srinitiworawong, P., Samerjai, W., and Sunetnanta, T. (2016). Diy sensor-based automatic control mobile application for hydroponics. In 2016 Fifth ICT International Student Project Conference (ICT-ISPC), pages 57–60. IEEE.
Priyanka, N. and Vasisht, A. (2015). Smart cities. International Journal of Engineering Science Invention, pages 43–49.
Saaid, M., Sanuddin, A., Ali, M., and Yassin, M. (2015). Automated ph controller system for hydroponic cultivation. In 2015 IEEE Symposium on Computer Applications & Industrial Electronics (ISCAIE), pages 186–190. IEEE.
Shafeena, T. (2016). Smart aquaponics system: Challenges and opportunities. European Journal of Advances in Engineering and Technology, 3(2):52–55.
ˇ Skraba, A., Koloˇzvari, A., Kofjaˇc, D., Stojanovi´c, R., Stanovov, V., and Semenkin, E. (2016). Streaming pulse data to the cloud with bluetooth le or nodemcu esp8266. In 2016 5th Mediterranean Conference on Embedded Computing (MECO), pages 428– 431. IEEE.
Triawan, M. A., Hindersah, H., Yolanda, D., and Hadiatna, F. (2016). Internet of things using publish and subscribe method cloud-based application to nft-based hydroponic system. In 2016 6th International Conference on System Engineering and Technology (ICSET), pages 98–104. IEEE.
Zanella, Bui, N., Castellani, A., Vangelista, L., and Zorzi, M. (2014). Internet of things for smart cities. IEEE Internet of Things journal, 1(1):22–32.
Zheng, J., Simplot-Ryl, D., Bisdikian, C., and Mouftah, H. (2011). The internet of things [guest editorial]. IEEE Communications Magazine, 49(11):30–31.
Helmy, H., Nursyahid, A., Setyawan, T. A., and Hasan, A. (2016). Nutrient film technique (nft) hydroponic monitoring system. JAICT, 1(1).
Nishimura, T., Okuyama, Y., and Satoh, A. (2016). High-accuracy and low-cost sensor module for hydroponic culture system. In 2016 IEEE 5th Global Conference on Consumer Electronics, pages 1–4. IEEE.
Okumura, T., Takano, K., Saito, Y., Takahashi, K., Takaki, K., Satta, N., and Fujio, T. (2016). Development and pilot test of sterilization system using discharge reactor for hydroponics solution. In 2016 IEEE International Conference on Plasma Science (ICOPS), pages 1–1. IEEE.
Oteafy, S. M. and Hassanein, H. S. (2017). Resilient iot architectures over dynamic sensor networks with adaptive components. IEEE Internet of Things Journal, 4(2):474–483.
Peuchpanngarm, C., Srinitiworawong, P., Samerjai, W., and Sunetnanta, T. (2016). Diy sensor-based automatic control mobile application for hydroponics. In 2016 Fifth ICT International Student Project Conference (ICT-ISPC), pages 57–60. IEEE.
Priyanka, N. and Vasisht, A. (2015). Smart cities. International Journal of Engineering Science Invention, pages 43–49.
Saaid, M., Sanuddin, A., Ali, M., and Yassin, M. (2015). Automated ph controller system for hydroponic cultivation. In 2015 IEEE Symposium on Computer Applications & Industrial Electronics (ISCAIE), pages 186–190. IEEE.
Shafeena, T. (2016). Smart aquaponics system: Challenges and opportunities. European Journal of Advances in Engineering and Technology, 3(2):52–55.
ˇ Skraba, A., Koloˇzvari, A., Kofjaˇc, D., Stojanovi´c, R., Stanovov, V., and Semenkin, E. (2016). Streaming pulse data to the cloud with bluetooth le or nodemcu esp8266. In 2016 5th Mediterranean Conference on Embedded Computing (MECO), pages 428– 431. IEEE.
Triawan, M. A., Hindersah, H., Yolanda, D., and Hadiatna, F. (2016). Internet of things using publish and subscribe method cloud-based application to nft-based hydroponic system. In 2016 6th International Conference on System Engineering and Technology (ICSET), pages 98–104. IEEE.
Zanella, Bui, N., Castellani, A., Vangelista, L., and Zorzi, M. (2014). Internet of things for smart cities. IEEE Internet of Things journal, 1(1):22–32.
Zheng, J., Simplot-Ryl, D., Bisdikian, C., and Mouftah, H. (2011). The internet of things [guest editorial]. IEEE Communications Magazine, 49(11):30–31.
Publicado
16/10/2018
Como Citar
VELOSO, Artur ; RODRIGUES, Antonio ; JUNIOR, Halysson ; OLIVEIRA, Davi ; OLIVEIRA, Regenildo ; FREDERICSON, Jorge ; SENA, Ayrton ; SOBRAL, Jose .
Implementação de um controle em Real-Time para Sistemas Hidroponicos NFT e aquaponia utilizando Broker MQTT e tecnologias de IoT. In: ESCOLA REGIONAL DE INFORMÁTICA DO PIAUÍ (ERI-PI), 4. , 2018, Teresina.
Anais [...].
Porto Alegre: Sociedade Brasileira de Computação,
2018
.
p. 32 - 37.
