Agricultural Technology Case

Smart Agriculture Research Base with "Agro-Photovoltaic Complementarity" Model

In line with our high-tech agriculture strategy, we have established a shared innovation platform for the application, research and development, concept validation, and demonstration of vertical farming technology based on the "agro-photovoltaic complementarity" model. This model and design concept integrates solar power generation above and crop cultivation below. We have introduced advanced intelligent greenhouse technology and developed energy-efficient vertical cultivation systems, high-precision intelligent environmental control systems, and precise water and fertilizer integration systems. These innovations address the high construction and operational energy costs of conventional plant factories, enabling year-round production of various vegetables and fruits.

Pollination Robots Boost Tomato Industry with New Productivity

In the Intelligent Tomato Industrial Park, pollination robots primarily use AI-based image recognition and precise location judgment to detect target flowers and their spatial coordinates. These robots autonomously move to the target positions and pollinate the flowers one by one using robotic arms and end-effectors. This AI-driven pollination robot can easily replace bumblebees in the tomato pollination process, enhancing productivity in the tomato industry.