Indian farmers are totally dependent on agriculture and livestock for satisfying their basic food and economical needs. Maximum farmers are habitual to take crops continuously with traditional ways without checking the current suitability. Government of India has developed centers to train and provide the information to farmers but everyonedon't approach to it. To get the increased yield, usually farmers add fertilizers without understanding requirement which may leads to soil degradation.Proposed solution is an automated system which can monitor major parameters required to estimate suitability for cropping. This system can be made available locally to every farmer. Outcome of this monitoring system can be used to identify particular crop suitability, so that suitable crop can be adopted.
Background: The key source of income in India is agriculture, so farming is called as backbone of Indian economy. To satisfy the need of increasing population increase in the crop yield is very important. India country programming framework stated that, the annual soil loss in India is about 5.3 billion tonnes. Methods: Majority farmers are small or marginal scale and are dependent on natural resources like soil-quality, rainfall and environmental condition etc. for their yield. Based on experience farmers decide which crop to be adopted. Government is arranging trainings and exhibitions to enhance the skillset of farmers. Result: A land which gives poor yield for one crop may produce adequate yield for some other crop/crops. To know the possible suitable crop/crops proposed machine learning model focuses current and potential suitability evaluation for available scenario.
In recent years, agriculture solutions using robotics and the internet of things (IoT) technology provided advanced agricultural support for farmers to produce food products with the highest yields. However, a lack of effective and efficient agricultural device has resulted in the wide adoption of this IoT technique recently. This study presents an automatic seeding and fertiliser micro-dosing robot for farmers to achieve precision farming. The automatic robotic device for seed planting and micro-dosing of fertiliser is adapted to plant various types of seed and particularly well adapted to the plant seeds with micro-dosing fertiliser. The new option controls the number of seeds and quantifies the fertiliser quantity at each dropping point. It is also able to control the distance between each dropping point. This study has implemented the proof-of-concept prototype by the IoT system to demonstrate the feasibility of the agricultural outcomes. The experiments performed in the real-world environment which showed the effectiveness and efficiency of the device under different conditions.
In recent years, agriculture solutions using robotics and the internet of things (IoT) technology provided advanced agricultural support for farmers to produce food products with the highest yields. However, a lack of effective and efficient agricultural device has resulted in the wide adoption of this IoT technique recently. This study presents an automatic seeding and fertiliser micro-dosing robot for farmers to achieve precision farming. The automatic robotic device for seed planting and micro-dosing of fertiliser is adapted to plant various types of seed and particularly well adapted to the plant seeds with micro-dosing fertiliser. The new option controls the number of seeds and quantifies the fertiliser quantity at each dropping point. It is also able to control the distance between each dropping point. This study has implemented the proof-of-concept prototype by the IoT system to demonstrate the feasibility of the agricultural outcomes. The experiments performed in the real-world environment which showed the effectiveness and efficiency of the device under different conditions.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.