Agriculture remains an essential segment for financial development and nourishmentgeneration, particularly in creating nations where an expansive parcel of the populace dependson cultivating. In any case, conventional cultivating strategies include tall manual exertion,time utilization, and need of exactness. To overcome these challenges, this paper presents theplan and improvement of an IoT-based multi-functional Agribot. The proposed framework iscompetent of performing different agrarian operations such as furrowing, boring, burrowing,seed sowing, water system, pesticide showering, and weed cutting utilizing a single automatedplatform. The Agribot is created utilizing low-cost components counting Arduino UNO,Bluetooth module HC-05, L293D engine driver, DC engines, and servo engines, making itreasonable for small-scale ranchers. The robot is controlled through a smartphone utilizingBluetooth-based communication, supporting both manual and voice-based commands. Theframework reduces work improves operational effectiveness and increases efficiency. Theplanned structure allows for integration of sensors, GPS and AI-based automation whichmakes it suitable, for creating smart applications. It helps to move with effectiveness andupgrades efficiency in a better way. The framework enables applications by incorporatingsensors, GPS and AI-based computerization.
M et al. (Mon,) studied this question.