Articles
| Open Access |
DOI: APPLICATION OF THE MECHATRONIC SYSTEM TO SILKWORM FEEDERS
Sharibaev Nasir Yusupjanovich , Namangan Institute of Engineering and Technology, Uzbekistan Ibragimov Akmaljon Turgunovich , Namangan Institute of Engineering and Technology, Uzbekistan Sharipbaev Sоbir Yusupjanovich , Namangan Institute of Engineering and Technology, UzbekistanAbstract
In this study, a mechatronic system was developed for the care of mulberry silkworms in multi-layered succulents. This system allows you to monitor and monitor the humidity and temperature in each layer using the DHT11 sensor. The results showed that humidity and temperature were kept stable by a mechatronic system, which positively affected the growth of silkworms and the production of high-quality silk. Compared to traditional methods, the system has made it possible to use resources more efficiently and save energy. In short, the mechatronic system makes the silkworm rearing process efficient and stable. This suggests that the method has great prospects in the development of the silk industry.
Keywords
multi-layer pads, humidity control, DHT11 sensor
References
Akhmadzhonov, S., & Murodov, K. (2019). Silkworm care technologies. Tashkent: Publishing house of the National Encyclopedia of Uzbekistan.
Бекмуродова, З. (2021). "The importance of controlling humidity and temperature when feeding silkworms. Journal of Agricultural Sciences, 12(3), 67-72.
Kim, H., and Park, S. (2018). " Applying mechatronics to agriculture: improving productivity with automation."Journal of Mechatronics and Agriculture Engineering", 25(4), 234-242.
Mardonov, Yu. (2020). Creating microclimatic conditions in the silk industry. Tashkent: Vostok Publishing House.
Nazarov, B., & Holmatov, S. (2017). "Mechatronic Systems for Environmental Control in Sericulture."Sericulture Journal of Environmental Science", 15(2), 102-109.
Park, J., And Lee, M. (2016). "Humidity and temperature control in multi-layer silkworm storage racks."International Journal of Sericulture Research, 19(1), 58-66.
Rakhmanov, F. (2018). "The advantages of automated systems in the care of silkworms. Scientific And Practical Agricultural Journal, 10(2), 85-91.
RAO, P. S., And Kumar, M. (2020).Mechatronic Approaches to Precision Agriculture. New York: Springer.
Smith, L., & Wong, T. (2019). "DHT11 Sensors in Agricultural Applications: Case Study in Humidity Control."Agricultural Sensors and controls Journal", 27(4), 148-155.
Tursunov, I., & Karimov, A. (2019). "Theoretical foundations of mechatronic systems of multi-layered silkworm care."Agriculture And Technology, 7(5), 123-130.
Wang, Yu, & Chen, H. (2017). Temperature and humidity monitoring systems for silkworm treatment. Beijing: Agricultural University Press.
Zhang, H., & Liu, R. (2021). "Advances in Mechatronic Systems for Climate Control in Insect Rearing."Journal of Mechatronic Systems", 36(1), 200-210.
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Copyright (c) 2024 Sharibaev Nasir Yusupjanovich, Ibragimov Akmaljon Turgunovich, Sharipbaev Sоbir Yusupjanovich
This work is licensed under a Creative Commons Attribution 4.0 International License.