The farming and agricultural sector plays a vital role in human survival and economic sustainability. Overtime,advancements in farming techniques and machinery have significantly improved crop quality and yield. However, theseadvancements have also increased the cost of cultivation, making modern agricultural equipment unaffordable for manysmall-scale farmers. This financial constraint highlights the need for cost-effective and time-efficient solutions in agriculture. Thisproject presents the design, development, and testing of an autonomous multipurpose agricultural robot aimedat reducingcultivation costs while improving operational efficiency. The proposed robotic system is capable of performingessentialagricultural tasks such as ploughing, seed sowing, and fertilizer spraying simultaneously, thereby minimizing manual laborandsaving time. Designed for ease of operation by a single individual, the robot is particularly suitable for use in arid andsemi-aridregions. The versatility of the system enables it to adapt to varying soil conditions and environmental factors. By movingpreciselyalong crop rows, the robot performs multiple operations with minimal human intervention, enhancing accuracy andresourceutilization. This approach not only improves productivity but also supports sustainable farming practices. Overall, the project aimsto empower small-scale farmers by providing an affordable, efficient, and sustainable agricultural solution that enhancescropproduction, optimizes resource usage, and contributes to the modernization of the agricultural sector.Keywords: Automation in Agriculture, Multipurpose Farming Machine, Cost-effective Farming