Precision irrigation or smart farming is a high-end strategy that improves agricultural sustainability and efficiency of water usage. Through the use of smart sensors, IoT devices, and advanced data analytics, smart sensors can make real-time monitoring and control of essential variables such as crop water needs, weather, and soil moisture. This allows the farmer to increase yields while minimizing loss of water, and better scheduling of irrigation. New developments have manifested several favorable effects, where water intakes have decreased by a minimum of 30%, while agricultural productivities move higher. One of these advancements encompasses the case studies whereby this paper carries out a comprehensive discussion on state-of-the-art precision irrigation technologies associated with recent sensor techniques, integrated data, and automated watering. This also looks into the challenges in precision irrigation, such as large capital costs, the complexity involved in data management, and the need for specialized knowledge. It further highlights potential future development in precision irrigation through deeper integration with AI and ML to better decision-making processes. Such assessment underlines the great importance of precision irrigation towards the implementation of sustainable methods of agriculture, especially in respect to the world's short supply of water and surging food demand. It therefore tries to give useful insights in the development of smart farming technology for scholars, practitioners, and policymakers.