Climate Intelligent control in agricultural greenhouse


Abstract views: 31 / PDF downloads: 42

Authors

  • Ahmed Medjber Medea University
  • Mohamed Ridha Skender Medea University
  • Fethia Hamidia University Media

Keywords:

Decoupling, Nonlinear System, Meta Heuristic, Regulator (PID, PDF), Agricultural Greenhouse

Abstract

This document presents the agricultural greenhouse is a suitable place to control climatic
factors and the requirements necessary for the proper growth of the plant. In this study aims to solve the
problem of manual regulation of environmental conditions in greenhouses, using a new approach
combining the methods (feedback and feedforward) and fuzzy logic controller. for the linearization and
decoupling of our system.

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Author Biographies

Ahmed Medjber, Medea University

Department of Electrical Engineering/ Renewable Energy and Materials Laboratory (REML),  Algeria

Mohamed Ridha Skender, Medea University

Department of Electrical Engineering/ Renewable Energy and Materials Laboratory (REML), Algeria

Fethia Hamidia , University Media

Electrical Engineering Department, Algeria

References

K. Mesmoudi, "Etude Expérimentale et Numérique de la Température et de l’Humidité de l’Air d’un Abri Serre Installé dans les Haut Plateaux d’Algérie, Région des Aurès," Thèse de Doctorat Physique Energétique, option énergétique Université de Batna, 2010.

Aktouche Mourad «Réalisation d’une station météo à base d’une carte à micro contrôleur MC68HC11 », projet de fin d’étude, Institut Electronique de Blida, Session 2004.

Gates, R.S., Overhults, D.G., 1991. Field evaluation of integrated environmental controllers. Publishers, Saint Joseph, MI ASAE Paper No. 91-4037. ASAE.

Sigrimis, N., Arvanitis, K.G., Pasgianos, G.D., Ferentinos, K.P., 2001. Hydroponics water management using adaptive scheduling with an on-line optimizer. Comput. Electron. Agric. 31, 31 _-46.

CIGR (2002). 4th Report of Working Group on Climatization of Animal Houses: Heat and moisture production at animal and house levels. Pedersen S; Sallvik, K. (eds.). Research Centre Bygholm, Danish Institute of Agricultural Sciences, P.O Box 536, DK-8700 Horsens, Denmark

ASHRAE (1981). Handbook of Fundamentals. American Society of Engineering Refrigeration and Air-Conditioning Engineer, Atlanta, GA, USA

N.A. Sigrimis, K.G. Arvanitis, and G.D. Pasgianos, “Synergism of high and low level systems for the efficient management of greenhouses,” Comp. Electron. Agric., vol. 29, pp. 21-39, 2000.

Touiza Maamar « Etude et implementation d’un système de controle en temps réel d’un procédé industriel VIA une architecture Client/Server. » Mémoire magister2006.

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Published

2024-03-18

How to Cite

Medjber, A., Skender, M. R., & Hamidia , F. (2024). Climate Intelligent control in agricultural greenhouse . International Journal of Advanced Natural Sciences and Engineering Researches, 8(2), 648–654. Retrieved from https://as-proceeding.com/index.php/ijanser/article/view/1768

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