Author: haroonkhan

In this sub-system, moisture sensor, temperature sensor, level sensor and motor play a major role. Soil moisture sensor (Sagar et al. 2017) checks the moisture content in the soil. If soil moisture is low, it continuously checks the moisture in the soil. Otherwise, the temperature sensor is activated. Pi checks if the temperature is less than…

In this sub-system, IR sensor, camera and buzzer play a major role. IR sensor is activated to capture moving object in the fields. Once an object is detected, the camera will be activated by the Pi. The camera captures the moving object into the fields. The moving objects may be a human being, cow, goat,…

Figure 12.2 shows the sequence diagram of the proposed system. In the proposed system IoT plays a major role. The purpose of the IoT in this system is to share the data with the users. Raspberry Pi (Kaveeya et al. 2017b) is connected with a Wi-Fi module. The farmers or gardeners have to register their mobile with…

Figure 12.1 shows the proposed architecture of the complete irrigation and garden nurturing system. Raspberry Pi is the main controller that collects data from all sensors to the cloud database. The soil moisture sensor is used to sense the water content in the soil, which is placed in the soil. The level sensor is placed nearer…

Al-Ali et al. (2015) presented a wireless irrigation system for a home garden that can be integrated with the home control systems. The system consists of a master station and a set of slave nodes connected with a wireless microcontroller. Each slave node contains a soil moisture sensor, a temperature sensor, a water valve, a ZigBee…

In developing countries like India, irrigation of crops and plants with the required amount of water is the fundamental problem. The main economy of the country depends on agriculture. Due to isotropic climatic conditions of the country, different regions need varied amount of water. Most of the lands in the country are dry and due…