In the current era of rapid development of agricultural technology, FZY has actively embraced change and successfully introduced an advanced greenhouse Internet of Things system, bringing a revolutionary transformation to the traditional agricultural planting model. This innovative measure has not only significantly improved the company's production efficiency but also marked a major breakthrough in the practical application of smart agriculture.
So, how does the greenhouse Internet of Things system operate?
First is data collection. A large number of sensors are deployed in the greenhouse. Temperature sensors accurately capture temperature changes, humidity sensors monitor air and soil humidity in real-time, light intensity sensors measure illumination, and soil pH sensors detect soil pH values. These sensors are distributed at key locations such as crop growing areas, ventilation openings, and near irrigation water sources, comprehensively collecting data.
Then comes data transmission. The collected data is transmitted to the central control system at a high speed and stably through a wireless transmission module. Wireless transmission technology overcomes the influence of distance and obstacles, ensuring that data is delivered quickly and accurately, and winning time for subsequent analysis.
Finally, for data analysis and execution, after the central control system receives the data, it quickly compares the current environmental data with the optimal growth parameters of crops based on built - in algorithms and crop growth models. If parameters such as temperature are abnormal, the system immediately calculates the operation plans for ventilation, shading and other equipment, and issues instructions to relevant equipment to precisely regulate the greenhouse environment.
Remarkable Advantages of the Greenhouse Internet of Things System
Take tomato cultivation as an example. In traditional greenhouses, environmental factors such as temperature and humidity fluctuate greatly and are difficult to stabilize within the optimal range for tomato growth. However, with the help of the greenhouse Internet of Things system, the temperature can be precisely controlled between 22 - 25 degrees Celsius, and the humidity can be stabilized within the ideal range of 60% - 70%. This enables tomatoes to grow in a more stable and suitable environment, with plumper fruits, higher sugar content, and a 30% increase in yield compared to the traditional planting model.
In terms of water resource utilization, the Internet of Things system can accurately judge the water demand of crops through real - time monitoring of soil humidity. In the past, manual irrigation may have led to over - irrigation or under - irrigation. Now, the system can provide precise irrigation water volume at the right time according to the actual needs of crops, increasing water resource utilization by 40%. At the same time, in terms of energy use, for example, lighting equipment, the system can automatically turn on an appropriate number of supplementary lights when the light is insufficient based on the data from the light intensity sensor, avoiding unnecessary energy waste.
Even if farmers are thousands of miles away, as long as they have an Internet connection, they can log in to the management system through a mobile phone or computer terminal. When traveling or handling other affairs, they can also view the real - time data of the greenhouse, such as temperature and humidity. Once abnormal data is detected, for example, if the temperature suddenly rises, they can immediately operate the ventilation equipment remotely to cool down, greatly improving the flexibility and timeliness of management. Farmers are no longer restricted by time and space and can efficiently respond to various emergencies. Mr. Pierre from Turkey said, "After introducing the Internet of Things system, our production management model has undergone earth - shaking changes. In the past, we mainly relied on manual experience for greenhouse management, which was not only inefficient but also difficult to ensure environmental stability. Now, with the help of the Internet of Things system, we have achieved 24 - hour real - time monitoring and precise control of the greenhouse environment. The growth cycle of crops is more stable, and both yield and quality have been significantly improved."
With the continuous advancement of agricultural intelligence, FZY's greenhouse Internet of Things system will become a new benchmark in the industry. In the future, the company plans to further increase investment in the field of agricultural technology, continuously optimize the functions of the Internet of Things system, and contribute more to the wide application of smart agriculture.
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