Temperature Measurement System Using Arduino

Authors

  • Yusfrizal Yusfrizal Universitas Potensi Utama
  • Mutiara Sovina Universitas Potensi Utama
  • Faisal Amir Harahap
  • Ivi Lazuly Universitas Potensi Utama

DOI:

https://doi.org/10.59934/jaiea.v2i3.203

Keywords:

measurement; temperature; sensor; Arduino Uno; database

Abstract

Living things need the right temperature to meet their life needs. It is necessary to do the measurement process. One process for
measuring room temperature that is widely used at this time is the automatic temperature measurement and air conditioning system. The temperature measurement system and air conditioning automation is a system that is very useful for human life. With this system is expected to make it easier to know the room temperature. LM35 is a sensor used in this study as a sensor that is very sensitive to temperature. The sensor results are processed by Arduino Uno which is then displayed in a desktop application using C# .Net and stored in the database. The room temperature measurement system, especially the one made in this project, can measure room temperature with an unstored data tolerance value ± 4 times in one minute. When the temperature exceeds the set temperature, the fan will rotate automatically as an air conditioner. This system works every second and displays the results on the desktop application and stores them in the database as the final storage place which can be developed or made a decision in the future.

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References

P. Szolovits, Artificial intelligence in medicine. Routledge, 2019.

K.-N. Rhee, B. W. Olesen, and K. W. Kim, “Ten questions about radiant heating and cooling systems,” Build. Environ., vol. 112, pp. 367–381, 2017.

E. Jiaqiang et al., “Orthogonal experimental design of liquid-cooling structure on the cooling effect of a liquid-cooled battery thermal management system,” Appl. Therm. Eng., vol. 132, pp. 508–520, 2018.

F. A. Hassani et al., “Smart materials for smart healthcare–moving from sensors and actuators to self-sustained nanoenergy nanosystems,” Smart Mater. Med., vol. 1, pp. 92–124, 2020.

A. H. A. Al-Waeli et al., “Evaluation of the nanofluid and nano-PCM based photovoltaic thermal (PVT) system: An experimental study,” Energy Convers. Manag., vol. 151, pp. 693–708, 2017.

E. Png, S. Srinivasan, K. Bekiroglu, J. Chaoyang, R. Su, and K. Poolla, “An internet of things upgrade for smart and scalable heating, ventilation and air-conditioning control in commercial buildings,” Appl. Energy, vol. 239, pp. 408–424, 2019.

P. D. P. Adi and A. Kitagawa, “Performance evaluation WPAN of RN-42 bluetooth based (802.15. 1) for sending the multi-sensor LM35 data temperature and raspBerry pi 3 Model B for the database and internet gateway,” Int. J. Adv. Comput. Sci. Appl., vol. 9, no. 12, pp. 612–620, 2018.

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Published

2023-06-15

How to Cite

Yusfrizal, Y., Mutiara Sovina, Harahap, F. A., & Ivi Lazuly. (2023). Temperature Measurement System Using Arduino. Journal of Artificial Intelligence and Engineering Applications (JAIEA), 2(3), 99–106. https://doi.org/10.59934/jaiea.v2i3.203

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Section

Articles