Controlling and Monitoring of Temperature and Humidity of Oyster Mushrooms in Tropical Climates

https://doi.org/10.22146/ijeis.73346

I Gusti Made Ngurah Desnanjaya(1), Putu Sugiartawan(2*)

(1) Computer Systems Study, Institut Bisnis dan Teknologi Indonesia
(2) Information Technology, , Institut Bisnis dan Teknologi Indonesia
(*) Corresponding Author

Abstract


Controlling the temperature and humidity of oyster mushroom cultivation is done manually by spraying air on the mushroom container so it takes a lot of time and effort. This is done to meet the requirements for growing oyster mushrooms which are strongly influenced by temperature and humidity conditions so that they can grow well. In this study, a device for controlling and monitoring the temperature and humidity of oyster mushroom cultivation was made automatically based on Arduino UNO. This tool can regulate and monitor the temperature and humidity in oyster mushroom cultivation automatically so that the temperature and humidity can be maintained without having to spend a lot of time and effort. The components used in building the automatic temperature and humidity controller for mushroom cultivation based on the Arduino UNO are the dht11 sensors, Arduino UNO, L298N driver, relay, and 16x2 I2C LCD. From the results of the tests that have been carried out, it can be concluded that the temperature and humidity control and monitoring device for automatic oyster mushroom cultivation based on Arduino UNO has been able to work well in regulating and monitoring temperature and humidity as expected.


Keywords


Arduino UNO; DHT11; LCD; Oyster Mushroom

Full Text:

PDF


References

[1] R. Rozario et al., “CATENARY CURVES-A CASE STUDY Intelligent Mushroom Monitoring System,” 2018.

[2] T. H. Nasution, M. Yasir, Fahmi, and Soeharwinto, “Designing an IoT system for monitoring and controlling temperature and humidity in mushroom cultivation fields,” in ICECOS 2019 - 3rd International Conference on Electrical Engineering and Computer Science, Proceeding, 2019.

[3] P. Sihombing, T. P. Astuti, Herriyance, and D. Sitompul, “Microcontroller based automatic temperature control for oyster mushroom plants,” in Journal of Physics: Conference Series, 2018.

[4] I. G. M. N. Desnanjaya and I. M. A. Nugraha, “Portable waste capacity detection system based on microcontroller and website,” in Journal of Physics: Conference Series, 2021, vol. 1810, no. 1.

[5] L. A. Jones, C. C. Muhlfeld, and F. R. Hauer, “Temperature,” in Methods in Stream Ecology: Third Edition, 2017.

[6] S. Waluyo, R. E. Wahyono, B. Lanya, and M. Telaumbanua, “Control Temperature and Humidity in Oyster Mushroom (Pleurotus sp) House Automatically Using Microcontroller,” agriTECH, 2019.

[7] M. P. T. Sulistyanto, W. Harianto, D. A. Nugroho, R. E. Retandi, A. K. Akbar, and P. H. Tjahjanti, “The controlling and monitoring system in oyster mushroom cultivation using fuzzy logic through web technology integrated with Internet of Things,” in MATEC Web of Conferences, 2018.

[8] M. Nakano and T. Nagai, “Thermometers for monitoring cellular temperature,” Journal of Photochemistry and Photobiology C: Photochemistry Reviews. 2017.

[9] A. Najmurrokhman, Kusnandar, A. Daelami, E. Nurlina, U. Komarudin, and H. Ridhatama, “Development of Temperature and Humidity Control System in Internet-of-Things based Oyster Mushroom Cultivation,” in 2020 3rd International Seminar on Research of Information Technology and Intelligent Systems, ISRITI 2020, 2020.

[10] I. N. B. Hartawan, P. P. Santika, I. B. A. I. Iswara, and I. G. M. N. Desnanjaya, “Effect of electromagnetic wave interference against computer network quality of service,” in Journal of Physics: Conference Series, 2020.

[11] C. Kousiatza and D. Karalekas, “In-situ monitoring of strain and temperature distributions during fused deposition modeling process,” Mater. Des., 2016.

[12] I. M. A. Nugraha, I. G. M. N. Desnanjaya, I. W. D. Pranata, and W. Harianto, “Stability Data Xbee S2b Zigbee Communication on Arduino Based Sumo Robot,” J. Robot. Control, 2021.

[13] H. Fitriawan, K. A. D. Cahyo, S. Purwiyanti, and ..., “IoT based controlling temperature and humidity on oyster mushrooms cultivation.,” J. Tek. Pertan. …, 2020.

[14] I. G. M. N. Desnanjaya and I. G. I. Sudipa, “The control system of Kulkul Bali based on microcontroller,” in Proceedings of 2019 5th International Conference on New Media Studies, CONMEDIA 2019, 2019.

[15] R. Rozario, “IoT Based Mushroom Monitoring System – A Survey,” Int. J. Recent Res. Asp., 2018.

[16] M. S. A. Mahmud, S. Buyamin, M. M. Mokji, and M. S. Z. Abidin, “Internet of things based smart environmental monitoring for mushroom cultivation,” Indones. J. Electr. Eng. Comput. Sci., 2018.

[17] I. Putra, I. P. Putra, M. A. Nasrullah, and T. A. Dinindaputri, “Study on Diversity and Potency of Some Macro Mushroom at Gunung Gede Pangrango National Park,” Bul. Plasma Nutfah, vol. 25, no. 2, pp. 77–90, Sep. 2019.

[18] M. Yamauchi et al., “Cultivation of oyster mushroom (Pleurotus ostrreatus) on fermented moso bamboo sawdust,” J. King Saud Univ. - Sci., 2019.

[19] I. Journal, I. Systems, A. Wireless, S. Network, X. P. Series, and X. P. Series, “Performance Analysis of Data Transmission on a Wireless Sensor Network Using the XBee Pro Series 2B RF Module,” vol. 10, no. 2, pp. 211–222, 2020.

[20] A. N. A. Yahaya, M. S. Hossain, and R. Edyvean, “Analysis of phenolic compounds in empty fruit bunches in oyster mushroom cultivation and in vermicomposting,” BioResources. 2017.

[21] I. G. M. N. Desnanjaya, I. B. A. I. Iswara, A. A. G. Ekayana, P. P. Santika, and I. N. B. Hartawan, “Automatic high speed photography based microcontroller,” in Journal of Physics: Conference Series, 2020.

[22] J. Politowicz et al., “Volatile composition and sensory profile of oyster mushroom as affected by drying method,” https://doi.org/10.1080/07373937.2016.1274903, vol. 36, no. 6, pp. 685–696, Apr. 2018.



DOI: https://doi.org/10.22146/ijeis.73346

Article Metrics

Abstract views : 2165 | views : 1482

Refbacks

  • There are currently no refbacks.




Copyright (c) 2022 IJEIS (Indonesian Journal of Electronics and Instrumentation Systems)

Creative Commons License
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.



Copyright of :
IJEIS (Indonesian Journal of Electronics and Instrumentations Systems)
ISSN 2088-3714 (print); ISSN 2460-7681 (online)
is a scientific journal the results of Electronics
and Instrumentations Systems
A publication of IndoCEISS.
Gedung S1 Ruang 416 FMIPA UGM, Sekip Utara, Yogyakarta 55281
Fax: +62274 555133
email:ijeis.mipa@ugm.ac.id | http://jurnal.ugm.ac.id/ijeis



View My Stats1
View My Stats2