A PORTABLE EASY TO USE PRESSURE, TEMPERATURE AND HUMIDITY REAL- TIME SENSING SYSTEM

Authors

  • K. A. Ofomaja Department of Physics, University of Benin, Nigeria. Author
  • O. S. Azi Department of Physics, University of Benin, Nigeria. Author

DOI:

https://doi.org/10.60787/jnamp.v67i2.369

Keywords:

Raspberry pi 4, BME280 sensor, python 3.7.3 code, Corlysis, Grafana

Abstract

This study focuses on the creation of a real-time environmental monitoring system that measures pressure, temperature, and humidity, critical parameters in the context of climate change. Utilizing a Raspberry Pi 4 and a BME280 sensor, the system collects data every two seconds and displays it graphically. The implementation employs Python code on the Raspbian platform. The collected data is transmitted to the cloud via Corlysis, making it accessible online through devices like personal computers or smartphones. Local data visualization is achieved using Matplotlib, while online visualization is facilitated by Grafana. The data is stored in the Corlysis database, ensuring easy access and integration into the Internet of Things (IoT) ecosystem. This system is particularly valuable for both calibration purposes and research, providing high-frequency, real-time data both locally and remotely.

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References

Yulkifli Y., Kurniati R. (2018). "Development of digital viscometer based on sensor technology and microcontroller". International Conference on Mathematics and Natural Sciences (IConMNS 2017) IOP Conf. Series: Journal of Physics: Conf. Series 1040 (2018) 012047 doi :10.1088/1742-6596/1040/1/012047

Alsibai, M.H., Siang, H.M. (2015). “A smart driver monitoring system using android application and embedded system”. In Proceedings of the 5th IEEE International Conference on Control Systems, Computing and Engineering (ICCSCE 2015), Penang, Malaysia, 27–29 November 2015, pp. 242–247

Salamone, F., Belussi, L., Danza, L., Ghellere, M. and Meroni, I. (2016), An open source smart lamp”, for the optimization of plant systems and thermal comfort of offices. www.mdpi.com/jounal/sensor. Sensors 2016, 16. [CrossRef] [PubMed].

Cressey D. (2007) "The DIY electronics transforming research", April 2017Nature 544(7648):125 DOI:10.1038/544125a

Mallon E. K. and Beddows P. (2018), "Cave Pearl Data Logger: A Flexible Arduino-Based Logging Platform for Long-Term Monitoring in Harsh Environments", Computer Science, Medicine Sensors, Published 1 February 2018, (Basel, Switzerland).

Tourian, M.J. Schwatke, C. and Sneeuw,N., (2017). “River discharge estimation at daily Resolution from satellite altimetry over an entire river basin”, Journal of Hydrology, 546, 230–247, doi:10.1016/j.jhydrol.2017.01.009 [Crossref], [Web of Science ®], [Google Scholar]

Ferdin J. J. J. (2019) IoT Based Weather Monitoring System for Effective Analytics International Journal of Engineering and Advanced Technology (IJEAT) ISSN: 2249 – 8958, Volume-8 Issue-4, April, 2019.

Madhuri P. P. and Rane K. P. (2016), “Cloud Based Weather Monitoring System”, International Journal on Recent and Innovation Trends in Computing and Communication Volume: 4 Issue: 5 ISSN: 2321-8169 446 – 450. DOI:10.3390/s18020530Corpus ID: 3818573

Ravi K. V. P. and Priyanka M., (2017), An IoT application for environmental monitoring and control using Raspberry-Pi, International Journal of Engineering and Technology · July 2017 DOI: 10.21817/ijet/2017/v9i3/170903S082 Vol. 9 No 3S July 2017, pp 546 - 552

Vasanth K. and Rachuri S., (2020), Real Time Monitoring of Environmental Parameters sing IoT, Wireless Personal Communications 112, 785 - 808 (2020) Spring Link.

Muck P. Y. and Homam M. J., (2018). Iot Based Weather Station using Raspberry Pi 3. International Journal of Engineering & Technology, 7 (4.30) (2018) 145-148. Website: www.sciencepubco.com/index.php/IJET Research paper

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Published

2024-07-31

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Articles

How to Cite

A PORTABLE EASY TO USE PRESSURE, TEMPERATURE AND HUMIDITY REAL- TIME SENSING SYSTEM. (2024). The Journals of the Nigerian Association of Mathematical Physics, 67(2), 113-124. https://doi.org/10.60787/jnamp.v67i2.369

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