Industry 4.0 technologies have led to a paradigm shift in agricultural efficiency.
Applications of the Internet of Things and connected devices on farms and across supply chains allow the collection of exponential amounts of data and enable meaningful analysis for productivity enhancement in agriculture.
Precision agriculture encompasses such technological advances.
It is broadly defined as scientific agriculture smartly controlled by data collected and computed via sensors.
Digitised management is at the core of precision farming for optimal use of agricultural inputs and enhanced production capacity.
Its operations require a certain level of IT infrastructure and capital investment, which could be an entry barrier to adopting Industry 4.0 for agricultural transformation.
For example, online devices, gadgets, compatible software, and in/outdoor facilities that enable digital connections are necessary for operations.
Despite the challenges, many countries are attempting to transform traditional agriculture into digital-based production.
Newer agricultural technologies are able to offset input costs while improving productivity and food security.
This course will show how technological advances contribute to the sustainability and cost-effectiveness of agriculture through enhancing productivity and reducing waste.
Considering the economic conditions of less developed countries, it will also introduce and review technologies applicable on a small-scale basis.
Every effort has been made to ensure the relevance of the course and its factual correctness. However, the world of food & agriculture is vast and complex. Please take time to research your local context, restrictions and regulations before you apply any learning from Digital School of Food and Agriculture.