Digital Farming Impact:
Digital farming, also known as precision agriculture, has several important impacts on agriculture and the food industry. Here are three key impacts:
Digital Farming Agribussiness and Technology Park (ATP), IPB University are a facility to demonstrate the digital farming technology to support Agromaritime Community to:
Future in our hand.
Learn MoreDigital farming, also known as precision agriculture, has several important impacts on agriculture and the food industry. Here are three key impacts:
Digital farming technologies such as GPS-guided tractors, drones, and sensors enable farmers to optimize their operations. They can precisely apply fertilizers, pesticides, and water, reducing waste and costs. This leads to increased productivity and profitability.
By using data analytics and monitoring tools, farmers can make more informed decisions about crop management. This can help reduce the environmental impact of agriculture by minimizing chemical use, water usage, and soil erosion.
Digital farming allows for more precise management of crops, leading to improved yield and quality. By monitoring factors like soil health, moisture levels, and plant health in real-time, farmers can take timely actions to prevent diseases and optimize growth conditions, resulting in better crop yields and quality.
Digital farming services leverage advanced technologies such as sensors, drones, and data analytics to provide farmers with real-time insights and actionable recommendations for optimizing their crop production and resource management practices. These services help farmers increase efficiency, reduce costs, and improve sustainability by enabling more precise and data-driven decision-making in agriculture.
IoT, sensors, and smart agriculture applications work together to collect, transmit, and analyze data from farms, enabling farmers to make data-driven decisions for better crop management, resource optimization, and overall farm efficiency.
A smart greenhouse with IoT technology uses sensors and actuators to monitor and control environmental conditions such as temperature, humidity, and light, enabling precise and automated cultivation of crops for increased efficiency and productivity.
A plant factory with artificial light is a controlled environment where crops are grown indoors under carefully managed conditions, including light spectrum, intensity, and duration, to optimize growth and yield throughout the year.
Drones are used in agriculture to monitor crops, assess plant health, and apply treatments, offering farmers a cost-effective and efficient way to manage their fields.