A Microclimate Closed House Control Design for Broiler Strain

Wicaksono, Damar and Firmansyah, Eka and Nugroho, Hanung Adhi (2017) A Microclimate Closed House Control Design for Broiler Strain. International Annual Engineering Seminar (InAES), International Symposium on Electronics, Control, Computer, and Information and Communication Technology. ISSN 978-1-5386-3111-9

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Official URL: http://ieeexplore.ieee.org/document/7858212/

Abstract

Through all stages of growing, chickens need a certain climate quality. The old climate quality is only the actual temperature-based controlling. On modern climate, an organization called Cobb-Vantress detached three climate parameters need to be satisfied: 1) temperature, 2) humidity, and 3) wind speed. It is known that those three parameters are not independent, the area to be controlled are fast area while commonly, this available tool to control those three parameters is only the speed of the exhaust fans inside the broiler house. Therefore, controlling three parameters which were intertwined each other inside a fast area with only single actuator was the main problem of this paper. The main goal was to achieve ideal microclimate control to grow chicken inside a broiler house. Alleviating those stated problem, a method that combined PID with artificial neural network was evaluated. The retrieval of the actual climate data were used as an input parameter for the process of identifying ideal climate system and used to control the climate error based-those parameters by generating wind speed to cool the broiler house. Results shows that the climate control that can be implemented effectively to maintain the effective temperature of the broiler house at 32 to 22 degrees celcius from the day-old chick to be matured in brooding stage. To achieve a settle state in the process of tuning PID should be done to get the appropriate PID parameters. Temperature controller testing shows prototype device has linear set point response between to with maximum heating rate and maximum cooling rate.

Item Type: Article
Subjects: T Technology > T Technology (General)
Divisions: Faculty of Engineering, Science and Mathematics > School of Electronics and Computer Science
Depositing User: Tri Yuliani
Date Deposited: 22 Jun 2021 04:44
Last Modified: 22 Jun 2021 04:44
URI: http://repository.unu-jogja.ac.id/id/eprint/24

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