This project presents a modular, IoT-enabled aeroponics farming system designed for indoor vertical cultivation of high-value crops, specifically strawberries, in urban environments. Integrating smart sensors, real-time data analytics, and automated control systems, the solution provides precise monitoring and management of key growth parameters such as temperature, humidity, CO₂ levels, and nutrient concentrations.
At its core, the technology is a combination of hardware (aeroponics device), IoT integration, and data-driven know-how tailored to improve crop yield, quality, and resource efficiency. Unlike traditional hydroponics, this system suspends plant roots in an oxygen-rich mist, leading to faster growth and sweeter fruit, while saving up to 80% more water. The system addresses critical urban agriculture challenges—limited space, high labour costs, and environmental unpredictability—by offering a scalable, transportable solution that can be deployed in car parks, rooftops, or community areas.
This technology leverages a unique integration of aeroponics, IoT, and data analytics to enhance indoor vertical farming, particularly for high-value crops like strawberries. Unlike conventional hydroponics, the aeroponics system suspends plant roots in an oxygen-rich mist, promoting faster photosynthesis, higher sugar accumulation, and reducing root rot risk. This results in sweeter strawberries and up to 80% water savings compared to hydroponic methods.
A key innovation lies in its real-time IoT-based monitoring and control system, which continuously captures data on temperature, humidity, nutrient levels, and CO₂ concentration. This enables precision farming and proactive adjustments to maintain optimal growth conditions. The system also supports predictive analytics, using machine learning models to forecast yield and detect potential issues early, which are rarely seen in current urban farming setups.
This technology stands out by offering a scalable, modular, and mobile setup, allowing deployment in space-constrained environments like rooftops or car parks. The automation significantly reduces labour dependency, and early trials demonstrate enhanced crop sweetness and operational efficiency.
Key application areas include:
Urban farming in underutilised spaces such as rooftops, car parks, and community gardens.
Indoor vertical farms operated by commercial agriculture companies.
Research and development in agri-tech institutions exploring smart farming methods.
Education and training centres teaching modern precision agriculture.
Disaster-resilient food production units for deployment in remote or climate-affected areas.
Potential products and solutions include:
Smart container farms with built-in automation and IoT analytics.
Predictive crop management system for indoor agriculture.
Custom aeroponics kits with integrated environmental sensors.
Urban farming-as-a-service platforms for city municipalities or real estate developments.
Aeroponics root suspension for improved oxygenation and faster growth.
Smart sensors and IoT integration for 24/7 monitoring of critical environmental parameters.
Data analytics and early-stage machine learning to enable predictive yield forecasting and proactive crop management.
Significant water savings (up to 80% compared to hydroponics).
Enhanced fruit sweetness and quality through improved photosynthesis.
Reduced manpower and labour costs with automation and remote monitoring.
Modular, space-efficient design that fits into urban spaces such as rooftops and car parks.
This technology is available for licensing and technology transfer.
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