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• W4285177732 abstract "Greenhouse farming is a closed structure for protecting the plants from extreme weather conditions such as wind, hailstorms sects, and pest attacks. The smart greenhouse improves the current agricultural practices with smart technologies for better yield. Modern technologies incur several distinct sensors to reduce the cost of inputs and improve soil productivity, conserving soil and water resources like energy. Smart irrigation in farming reduces the intake of fertilization, optimizes the growth of the crop, increases productivity, and protects the greenhouse environment. The sensors in the field acquire the measurement of soil moisture and fix the threshold level. According to the level of threshold, the water is streamed to the plants. Planning of cultivation of distinct crops in the farm can be done based on water and other nutrient requirements. Optimized planning can be achieved based on any artificial intelligence techniques. Greenhouse farm faces many challenges in irrigation such as controlling the intelligent system for dripping, sprinkling, handling the drainage problem, and waterlogging. The congestion between dripping, sprinkling and water logging can be avoided along with reduction of water wastage. Internet of Things (IoT) in smart irrigation systems with intelligent sensors will overcome the above issues by maintaining the moisture in the soil, preserving the temperature of plants. The existing sensor control irrigation system exposes the plants with controlled water deficit. Fertigation is an emerging technology in a smart irrigation system for integrating the environmental control system to optimize the level of nutrient and water management. This paper aims to deliver an optimum level of water along with nutrients to the root of the crop for reducing the wastage and evaporation of water." @default.
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• W4285177732 date "2022-01-01" @default.
• W4285177732 modified "2023-09-26" @default.
• W4285177732 title "Smart Energy Conservation in Irrigation Management for Greenhouse Agriculture" @default.
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• W4285177732 doi "https://doi.org/10.1007/978-981-19-2083-7_7" @default.
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