International Journal For Multidisciplinary Research

E-ISSN: 2582-2160     Impact Factor: 9.24

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Automatic Multipurpose Agricultural Robot

Author(s) Mr. Ashwath S.D, Mr. Ashwanth B, Mr. Balan S, Mr. Barathkumar J.B, Dr. Sundar G, Dr. Senthilkumar R
Country India
Abstract The agricultural industry is undergoing a transformation to address the growing demands of population and climate change. Traditional manual methods are being replaced by automated solutions to improve efficiency and reduce labor. This project presents a multipurpose agricultural robot that can be controlled via a smartphone, allowing farmers to perform tasks such as plowing, seed sowing, water spraying, and monitoring temperature and humidity. By integrating wireless-communication technologies like Bluetooth or Wi-Fi, the system enables remote operation and data collection from the field. The robot uses microcontrollers and sensors to respond to commands from the mobile app, streamlining operations and enhancing productivity. Designed for small to medium farms, the system is both affordable and user-friendly. It supports sustainable agriculture by using resources efficiently, such as targeted water and pesticide application, and can be powered by solar or battery sources for eco-friendliness. Real-time sensing of soil moisture, temperature, and obstacles enhances decision-making. The robot’s smartphone interface ensures ease of use even for farmers with minimal technical skills. Its modular design allows customization based on different crops and farm sizes. By consolidating multiple functions into one platform, it reduces the need for various machines, cutting costs. Additionally, it protects users from direct exposure to chemicals during spraying operations. This smart system promotes digital literacy among farmers and lays the groundwork for future integration of AI and cloud-based monitoring.
Keywords Smartphone, Communication, Sustainable, Sensing, Farm, Integration
Field Engineering
Published In Volume 8, Issue 2, March-April 2026
Published On 2026-04-01
DOI https://doi.org/10.36948/ijfmr.2026.v08i02.72975
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