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An Artificial Intelligence-Powered Environmental Control System for Resilient and Efficient Greenhouse Farming

Meng-Hsin Lee, Ming-Hwi Yao, Pu-Yun Kow, Bo‐Jein Kuo, Fi‐John Chang

2024Sustainability30 citationsDOIOpen Access PDF

Abstract

The rise in extreme weather events due to climate change challenges the balance of supply and demand for high-quality agricultural products. In Taiwan, greenhouse cultivation, a key agricultural method, faces increasing summer temperatures and higher operational costs. This study presents the innovative AI-powered greenhouse environmental control system (AI-GECS), which integrates customized gridded weather forecasts, microclimate forecasts, crop physiological indicators, and automated greenhouse operations. This system utilizes a Multi-Model Super Ensemble (MMSE) forecasting framework to generate accurate hourly gridded weather forecasts. Building upon these forecasts, combined with real-time in-greenhouse meteorological data, the AI-GECS employs a hybrid deep learning model, CLSTM-CNN-BP, to project the greenhouse’s microclimate on an hourly basis. This predictive capability allows for the assessment of crop physiological indicators within the anticipated microclimate, thereby enabling preemptive adjustments to cooling systems to mitigate adverse conditions. All processes run on a cloud-based platform, automating operations for enhanced environmental control. The AI-GECS was tested in an experimental greenhouse at the Taiwan Agricultural Research Institute, showing strong alignment with greenhouse management needs. This system offers a resource-efficient, labor-saving solution, fusing microclimate forecasts with crop models to support sustainable agriculture. This study represents critical advancements in greenhouse automation, addressing the agricultural challenges of climate variability.

Topics & Concepts

MicroclimateGreenhouseEnvironmental scienceAgricultureGreenhouse gasEnvironmental resource managementAgricultural engineeringClimate changeComputer scienceEngineeringEcologyBiologyHorticultureGreenhouse Technology and Climate ControlPlant Water Relations and Carbon DynamicsRemote Sensing in Agriculture