Abstract
Agriculture plays a vital role in the economic growth of any country. With the increase of population, frequent changes in climatic conditions and limited resources, it becomes a challenging task to fulfil the food requirement of the present population. Precision agriculture also known as smart farming have emerged as an innovative tool to address current challenges in agricultural sustainability. The mechanism that drives this cutting edge technology is machine learning (ML). It gives the machine ability to learn without being explicitly programmed. ML together with IoT (Internet of Things) enabled farm machinery are key components of the next agriculture revolution. In this article, authors present a systematic review of ML applications in the field of agriculture. The areas that are focused are prediction of soil parameters such as organic carbon and moisture content, crop yield prediction, disease and weed detection in crops and species detection. ML with computer vision are reviewed for the classification of a different set of crop images in order to monitor the crop quality and yield assessment. This approach can be integrated for enhanced livestock production by predicting fertility patterns, diagnosing eating disorders, cattle behaviour based on ML models using data collected by collar sensors, etc. Intelligent irrigation which includes drip irrigation and intelligent harvesting techniques are also reviewed that reduces human labour to a great extent. This article demonstrates how knowledge-based agriculture can improve the sustainable productivity and quality of the product.
Highlights
The population of the world will increase to 9.1 billion approximately thirty-four percent as of today by the end of 2050
These components play a vital role in collecting real-time data and making decisions without human support
Artificial intelligence which is the automation of intelligent behaviour is continuously benefiting our planet and helping humans in various aspects of life
Summary
The population of the world will increase to 9.1 billion approximately thirty-four percent as of today by the end of 2050. The main focus of precision farming is to reduce the production cost and environmental effects to increase the farm’s profitability Digital technologies such as IoT [6], AI, data analytics, cloud computing, and block-chain technology play a key role in precision agriculture. IoT based smart sensors are deployed in the agriculture land for collecting data related to soil nutrients, fertilizers, and water requirements as well as for analysing the crop growth. The agriculture industry is widely adopting smart technologies like IoT and AI to efficiently cultivate organic products in limited land areas as well as to overcome the traditional challenges of farmers.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
