2692-4048ISSN (Online)
2770-0070ISSN (Print)
Volume 1 , Issue 1 , PP: 14-21, 2020 | Cite this article as | XML | Html | PDF | Full Length Article
Surinder Kaur 1 * , Diksha Kumari 2 , Vandana Kumari 3
This paper concentrates on the sustainable use of energy, water, and raw materials to increase production to meet the demand of a high population with available areas. In this work, a kind of automatically controlled greenhouse system of single-chip microcomputer based on sensors is described. This paper presents the system's hardware structure, working principle and process, and a large number of experiments on the effect of the control system. Five control parameters are chosen to increase the yield of the greenhouse, which can be used in indoor breeding and planting. Control actions are performed on the basis of the fusion of different parameters. For the actuation system, the greenhouse is controlled by relays. The proposed control framework permits sparing costs related to wear minimization and delaying the actuator's life, yet continuing promising execution comes out. Results and conclusions are derived by methods of simulation results.
Greenhouse , controlled farming , sustainable growth , microcontroller
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