Please use this identifier to cite or link to this item: http://cris.utm.md/handle/5014/265
Title: Automatic control system for crop cultivation
Authors: FIODOROV Ion 
COJUHARI, Irina 
IZVOREANU, Bartolomeu 
MORARU, Dumitru 
BALABAN, Eugeniu 
Keywords: crop cultivation;climatic parameters;automatic control system
Issue Date: 2019
Source: FIODOROV, Ion; COJUHARI, Irina; IZVOREANU, Bartolomeu; MORARU, Dumitru; BALABAN, Serghei. Automatic control system for crop cultivation. In: Electronics, Communications and Computing. Editia a 10-a, 23-26 octombrie 2019, Chişinău. Chișinău, Republica Moldova: Universitatea Tehnică a Moldovei, 2019, p. 37. ISBN 978-9975-108-84-3.
Project: Models, methods and interfaces for control and optimization of intelligent manufacturing systems / Modele, metode și interfețe pentru conducerea și optimizarea sistemelor de fabricație inteligente 
Journal: The 10th International Conference on Electronics, Communications and Computing 
Conference: Electronics, Communications and Computing 
Abstract: 
Nowadays, greenhouses are widely used, they permit to exclude the influence of climatic factors and to ensure a stable crop of fresh vegetables. For the large scale in the greenhouses is used the automation, that suppose the continuous controlling of climatic parameters as temperature, humidity etc. In this paper was done the study about factors that influence the crop process and it was developed an automatic control system for crop cultivation. The designed system is a complex system that contains many logical, mechanical and power control elements. The core of the system is represented by two logical control units: the Raspberry Pi 3 mini-computer (RPi 3) and the Atmega328P microcontroller. The RPi 3 is responsible for implementing the general system control algorithms and for linking the system to the graphical interface. The ATmega328P microcontroller is responsible for driving DC motors. Mechanical construction is a CNC machine that has three movement axes. The motion is provided by „Faulhaber 2342l012CR” DC motors. It was done the synthesis of the proportional controller and the control algorithm was developed using the programming language C and implemented on the microcontroller. In the figure 1 it is presented the graphical representation of the system, with the axes displacement.
URI: http://cris.utm.md/handle/5014/265
ISBN: 978-9975-108-84-3
Appears in Collections:Conference Abstracts

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