The increasing demand for automation in agriculture has propelled the development of multipurpose autonomous systems toassist farmers in reducing labor and improving efficiency. This paper presents an autonomous-enabled smart agriculture robot that integratesseed sowing, grass cutting, and fertilizer spraying functions into a compact Bluetooth-controlled rover. Designed to support small andmedium-sized farming operations, the system minimizes human intervention while maintaining a low-cost, user-friendly interface. Thisprototype model aims to modernize traditional agriculture practices with a simple mechanical design, a DC-motor-powered drive system,and efficient resource management for field-level cultivation.To address the challenges of manual agricultural work and promote sustainable farming practices, the implementation of robotics in theagricultural domain is crucial. The autonomous smart agriculture robot proposed in this study simplifies operations through an integratedmechanical and electronic design that is reliable and easy to maintain. By supporting multiple essential farming tasks, the rover enhancesproductivity and reduces the physical workload on farmers, promoting more effective resource utilization and increased agricultural yield.Keywords: Smart Agriculture, Bluetooth Rover, Seed Sowing, Fertilizer Sprayer, Autonomous Robot.