The core value of the project lies in creating a unique "dialogue-based" management model through technological integration, which transforms greenhouse management from a traditional experience-dependent mode to precision environmental regulation and water-fertilizer management based on real-time crop needs, and this model has been successfully applied in outdoor greenhouse, custom greenhouse and mini greenhouse. The model realizes "dialogue" between managers and crops—crops "express" their growth needs through multi-dimensional data, and managers "respond" with precise measures, realizing accurate response to crop needs.
In outdoor greenhouse, the "dialogue-based" model solves the problem of extensive management caused by relying on manual experience. Outdoor greenhouse covers a large area, and manual experience is difficult to take into account the differences in crop growth in different areas. The model collects real-time data of crops through UAV and ion electrode technology, analyzes the growth status and needs of crops in different areas of the outdoor greenhouse through AI, and formulates targeted regulation plans. For example, if the data shows that the crops in the eastern part of the outdoor greenhouse are deficient in phosphorus, while the crops in the western part are normal, the system will only arrange phosphorus fertilization in the eastern part, avoiding the waste of fertilizer. This precise regulation not only improves the growth quality of crops in outdoor greenhouse but also reduces resource consumption.
For custom greenhouse, the "dialogue-based" model meets the personalized and refined management needs of special crops. Custom greenhouse is usually built for crops with high economic value and strict growth requirements, and the traditional experience-based management mode is difficult to meet the precise needs of these crops. The model can monitor the real-time growth status of crops in the custom greenhouse, such as the nutrient ion concentration, water content and environmental adaptability, and adjust the environmental parameters and water-fertilizer supply of the custom greenhouse in real time. For example, a custom greenhouse planting tropical flowers needs to maintain a certain temperature and humidity, and the model can adjust the heating and irrigation equipment according to the real-time data of the flowers, ensuring that the growth environment is always in the optimal state.
In mini greenhouse, the "dialogue-based" model simplifies the management process and improves the planting efficiency of users. Mini greenhouse users often have limited time and energy for crop management, and the model can automatically complete data collection, analysis and demand judgment, providing users with one-click regulation suggestions. For example, the system can automatically detect that the vegetables in the mini greenhouse are short of water, and remind the user to start the irrigation equipment, or even connect to the intelligent irrigation system to complete automatic irrigation. This intelligent management mode enables mini greenhouse users to easily manage crops without professional planting experience.
The "dialogue-based" model also realizes the dynamic adjustment of management strategies for outdoor greenhouse, custom greenhouse and mini greenhouse. Crop growth needs change in different growth stages, and the model can track the growth process of crops in real time, adjusting the regulation plan accordingly. In the seedling stage of crops in outdoor greenhouse, the model focuses on ensuring water and nitrogen supply; in the flowering and fruiting stage, it increases phosphorus and potassium fertilizer supply. In a custom greenhouse planting fruit trees, the model adjusts the light and temperature according to the flowering period and fruiting period of the fruit trees. In a mini greenhouse planting leafy vegetables, the model optimizes the irrigation frequency according to the growth rate of the vegetables. This dynamic adjustment ability ensures that crops in various greenhouses get the most appropriate management in each growth stage.
Compared with the traditional mode, the "dialogue-based" model has obvious advantages in outdoor greenhouse, custom greenhouse and mini greenhouse. It reduces the dependence on manual experience, improves the accuracy and efficiency of management, and realizes the precision of water and fertilizer supply and environmental regulation. This model not only promotes the intelligent transformation of outdoor greenhouse, custom greenhouse and mini greenhouse but also sets a new benchmark for the refined management of modern agriculture.
