Design of Soft Computing Based Optimal PI Controller for Greenhouse System

Abstract: Greenhouse system (GHS) is the worldwide fastest growing phenomenon in agricultural sector. Greenhouse models are essential for improving control efficiencies. The Relative Gain Analysis (RGA) reveals that the GHS control is complex due to 1) high nonlinear interactions between the biological subsystem and the physical subsystem and 2) strong coupling between the process variables such as temperature and humidity. In this paper, a decoupled linear cooling model has been developed using a feedback-feed forward … Show more

“…In Manonmani et al (2016), both PSO and GA are applied to design a decoupled multi-variable internal PI controller based on an internal model control formulation. The developed model addresses aspects of cooling, heating and ventilation in the greenhouse.…”

Review of nature and biologically inspired metaheuristics for greenhouse environment control

“…In Manonmani et al (2016), both PSO and GA are applied to design a decoupled multi-variable internal PI controller based on an internal model control formulation. The developed model addresses aspects of cooling, heating and ventilation in the greenhouse.…”

Review of nature and biologically inspired metaheuristics for greenhouse environment control

Enhancing Temperature Control in a Miniature Green House for Corn Plantation System Using Model Predictive Controller

A greenhouse system control based on a PSO tuned PI regulator