Using IoT for monitoring temperature, humidity and presence in data centers

Authors

  • Guilherme da Silva Donizetti Faculdade de Tecnologia Professor Waldomiro May
  • Luiz Fernando da Costa Rodrigues FATEC Cruzeiro – Centro Paula Souza (CPS)
  • Eugênio Sper de Almeida FATEC Cruzeiro – Centro Paula Souza (CPS) / Coordenação de Pesquisa Aplicada e Desenvolvimento Tecnológico (COPDT) – Instituto Nacional de Pesquisas Espaciais (INPE)
  • Márcio A. A. Santana Metrologia Ambiental (COMIT) – Instituto Nacional de Pesquisas Espaciais (INPE)

Keywords:

IoT, Temperature, Humidity, Data center, Monitoring

Abstract

Critical computing environments, such as data centers, need to monitor environmental variables: temperature, humidity and the presence of people. This article presents an Internet of Things-based system for local monitoring of these variables in real time. Through low-cost materials and tools, the system facilitates the identification of points outside the curve and identifies the areas that are at risk in the monitored environment.

Downloads

Download data is not yet available.

Author Biography

Guilherme da Silva Donizetti, Faculdade de Tecnologia Professor Waldomiro May

With a background in Systems Analysis and Development, Guilherme Donizetti has experience in the Information Technology sector, with an emphasis on software development.

References

Al-Fuqaha, A.; Mohammadi, M. (2015) “Internet of Things: A Survey on Enabling Technologies, Protocols and Applications”, https://www.researchgate.net/publication/279177017_Internet_of_Things_A_Survey_on_Enabling_Technologies_Protocols_and_Applications, Julho.

ANSI/TIA-942, American National Standard Institute / Telecommunication Industry Association. (2012) “Normas de Infra-estrutura de Telecomunicações para Datacenters”. Aníbal, D., Rodríguez, N. (2015) “Estudio comparativo de sistemas de virtualización y de seguridad, caso de estudio Museo QCAZ de la PUCE”, ttp://repositorio.puce.edu.ec/handle/22000/7685, Junho.

Bonilla, S. et al. (2018) “Indústria 4.0: conceitos e fundamentos”, 1.ed. Blucher, São Paulo.

Ciuffoletti, A. (2018). “Low-cost IoT: A holist approach. Journal of Sensor and Actuator Networks”, 7(2), 19.

Freitas, A. (2020). “RDEV- Uma solução baseada em IoT para coleta, monitoramento e visualização de temperatura e umidade de ambientes em tempo real”, https://www.fateccruzeiro.edu.br/projetos/acervo/bd4c9ab730f5513206b999ec0d90d1fb.pdf, Julho.

Madakam, S., Ramachandrasastri, R. and Tripathi, S. (2015) “Internet of Things(IoT): A Literature Review”, https://www.scirp.org/pdf/JCC_2015052516013923.pdf.

Menezes, I. (2017) “A influência do DCIM na melhoria da climatização de um data center”, https://www.riuni.unisul.br/handle/12345/3657, Junho.

Sperry, G. (2014). “Why your data center should have aisle containment?”, https://xmission.com/blog/2014/03/25/why-your-data-center-should-have-aisle-containment, Julho.

Yuan, M. (2017) “Conhecendo o MQTT”, https://developer.ibm.com/br/technologies/iot/articles/iot-mqtt-why-good-for-iot/, Julho.

Downloads

Published

2023-05-29

How to Cite

da Silva Donizetti, G., da Costa Rodrigues, L. F., Sper de Almeida, E. ., & A. A. Santana, M. . (2023). Using IoT for monitoring temperature, humidity and presence in data centers. Electronic Journal of Undergraduate Research on Computing, 21(1). Retrieved from https://journals-sol.sbc.org.br/index.php/reic/article/view/2144

Issue

Vol. 21 No. 1 (2023)

Section

Full Papers