Towards Autonomous Farming -A Novel Scheme based on Learning to Prediction and Optimization for Smart Greenhouse Environment Control

Ullah, I. and Fayaz, M. and Aman, M. and Kim, D. (2022) Towards Autonomous Farming -A Novel Scheme based on Learning to Prediction and Optimization for Smart Greenhouse Environment Control. IEEE Internet of Things Journal. p. 1.

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Abstract

Greenhouse industry has received great attention and experienced tremendous growth in recent past across the globe. However, energy consumption and labor cost in greenhouses accounts for more than 50 of the cost of greenhouse production. This demands an Internet-of-Things (IoT) based smart solution for automation of greenhouse environment-related activities to ensure maintenance of the desired climate inside the greenhouse to maximize plants production with optimal resource utilization. To this end, several models are proposed in the literature that are based on a selected artificial intelligence (AI) algorithm which is once trained and then deployed. The drawback of such systems is that the trained models are fixed (locked) and therefore unable to adapt with dynamically changing conditions, which results in performance degradation. Secondly, the existing studies on the subject matter are focused on individual key component (i.e., prediction, optimization, and control). In this paper, a novel scheme is presented based on the integration of the key components and the performance of prediction and optimization components is further enhanced through exploitation of artificial neural network (ANN) based learning modules to support autonomous greenhouse environment monitoring and control. For experimental analysis, the greenhouse environment is emulated through the mathematical formulation of essential greenhouse processes, considering the impact of actuators’ operations and external weather conditions. Real environmental data collected for Jeju Island, South Korea is used for model validation and results analysis. Proposed learning-based optimization scheme results are compared with two other schemes i.e., baseline scheme and optimization scheme. Comparative analysis of the results shows that the proposed model maintains the desired indoor environment for maximizing plant production with reduced energy consumption i.e., it achieves 61.97 reduced energy consumption than baseline scheme, 11.73 better than optimization scheme without learning modules. Furthermore, proposed model achieves 67.96 and 12.56 reduction in cost when compared to the baseline scheme and optimization scheme without learning modules, respectively. IEEE

Item Type: Article
Impact Factor: cited By 0
Uncontrolled Keywords: Costs; Energy efficiency; Energy utilization; Greenhouses; Internet of things; Learning systems; Neural networks; Wages, Environment control; Green products; Greenhouse environment; Learning modules; Optimisations; Optimization scheme; Plant production; Predictive models; Smart greenhouse, Forecasting
Depositing User: Mr Ahmad Suhairi Mohamed Lazim
Date Deposited: 13 Sep 2022 04:41
Last Modified: 13 Sep 2022 04:41
URI: http://scholars.utp.edu.my/id/eprint/33797

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