These technologies have the potential to improve the sustainability, efficiency, and productivity of agriculture, while also addressing some of the major challenges facing the industry, such as climate change, food insecurity, and labor shortages. However, there are also concerns around the ethical and social implications of these technologies, which will need to be carefully considered as they continue to develop.

@ Sudip, all three modern technologies have greater impact on future agriculture. Precision agriculture increases efficiency and productivity by enabling farmers to target their inputs such as seeds, fertilizers, and pesticides to specific areas of the field that need them the most, rather than applying them uniformly across the entire field. Gene editing helps crops resistant to disease, drought and insects, allowing farmers to reduce pesticide use and conserve water. Wider use of the gene editing leads to a significant reduction in pesticide use. As the genetic change is designed to make crops more resistant to pests, the reliance on chemicals is reduced. The robot navigates the field and interprets the assigned task. It helps the farmers by blowing weeds, applying chemicals or harvesting the crops, and includes navigation systems to locate themselves. Crop condition identification and corresponding chemical application, spraying or harvesting, as required by the fruit or plant can very well be done by use robotics.

Emerging technologies such as precision agriculture, gene editing, and robotics have the potential to revolutionize the future of agriculture. Precision agriculture, which uses modern technology such as GPS, sensors, and satellite imagery to monitor and manage farm operations, can help farmers increase crop yields and reduce inputs. Gene editing allows scientists to edit the genetic code of plants and animals to create new varieties with improved traits. This could lead to more productive and disease-resistant crops and livestock. Robotics can help automate many of the tedious tasks associated with farming, such as planting, weeding, and harvesting, which can increase efficiency and reduce labor costs. All of these technologies could help improve the sustainability, efficiency, and productivity of agriculture in the future

Artificial intelligence, analytics, connected sensors, and other emerging technologies could further increase yields, improve the efficiency of water and other inputs, and build sustainability and resilience across crop cultivation and animal husbandry. These are some applications of robotics in agriculture for which Robotnik robots are used: Crop condition identification and corresponding chemical application, spraying or harvesting, as required by the fruit or plant and mobile manipulation through collaborative arms. These technologies have the potential to improve the sustainability, efficiency, and productivity of agriculture, while also addressing some of the major challenges facing the industry, such as climate change, food insecurity, and labor shortages. IoT is used as a smart farming solution for monitoring the crop field from anywhere. It involves using sensors to track soil moisture, crop health, livestock conditions, temperature, etc. IoT technologies make it possible to create automated irrigation structures where water resources can be managed efficiently. Drones are the future of agriculture. Equipped with technology-based sensors, drones can be used in precision agriculture monitoring crop health, weed and pests detection, crop scouting, analysis of soil health, irrigation management, and livestock management among others.Applying technology and technical innovations in agriculture have significantly increased efficiency and output. Agritech helps farmers in various aspects of their farming operations. From increasing crop production to reducing water, fertilizer, and pesticides to improving working conditions for farm workers. Technology has enabled farmers to increase their yields by using advanced tools and techniques such as precision agriculture, which involves the use of sensors, drones, and GPS to monitor crop growth and optimize inputs such as water, fertilizer, and pesticides. Modern technology in agriculture has led to increased production and productivity. This has in turn led to improved food security and incomes for farmers. In addition, it has helped to create new jobs and improve the quality of life for rural communities. Digital technologies can help in generating real-time actionable insights for improving crop yield, controlling pests, assisting in soil screening, providing actionable data for farmers, and reducing their workload. By promoting sustainable agriculture practices, technology can help to reduce the environmental impact of agriculture while improving food security and economic development. Technology can also contribute to sustainable development by promoting sustainable transportation practices. There are several other things that technology does for agriculture in India, including accurately predicting climate and preparing for changes, reducing water usage, which would then lead to higher yields and increased net profits.