Abstract
New technologies have the potential to transform agriculture and to reduce environmental impact through a green revolution. Internet of Things (IoT)-based application development platforms have the potential to run farm management tools capable of monitoring real-time events when integrated into interactive innovation models for fertirrigation. Their capabilities must extend to flexible reconfiguration of programmed actions. IoT platforms require complex smart decision-making systems based on data-analysis and data mining of big data sets. In this paper, the advantages are demonstrated of a powerful tool that applies real-time decisions from data such as variable rate irrigation, and selected parameters from field and weather conditions. The field parameters, the index vegetation (estimated using aerial images), and the irrigation events, such as flow level, pressure level, and wind speed, are periodically sampled. Data is processed in a decision-making system based on learning prediction rules in conjunction with the Drools rule engine. The multimedia platform can be remotely controlled, and offers a smart farming open data network with shared restriction levels for information exchange oriented to farmers, the fertilizer provider, and agricultural technicians that should provide the farmer with added value in the form of better decision making or more efficient exploitation operations and management.
Highlights
Precision agriculture (PA) consists of managing crops by observing, measuring, and acting against the many variable factors that affect them
These steps, which can be performed with a standard web browser, are described below in environmental conditions, and machinery from a range of Figure 2: devices, and the information is transmitted through the network coordinator to the middleware
We have presented the results of new decision rules to create variable rate
Summary
Precision agriculture (PA) consists of managing crops by observing, measuring, and acting against the many variable factors that affect them. The Internet of Things (IoT) [1] can be used for that purpose, despite several immense challenges linked to big data analytics, cloud computing, and new business models in SDS. Things (IoT) [1] can be used for that purpose, despite several immense challenges linked to big data analytics, cloud computing, and new business models in SDS These intelligent assistance with the the implementation of technology and and its maintenance and use. VRI is a an inopen network, allsystem in one.includes our system includes rules based on variable-rate new technique that allows optimization of irrigation application, considering the status of field and weather In most cases, these systems are implemented by using a center pivot irrigation system that can reduce the total irrigation water volume required to grow field crops.
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