Solar Based Automatic Irrigation Robot for Farm Monitoring

Also Available Domains WSN|Robotics|Android|Embedded applications|Arduino

Project Code :TEMBMA1657

Objective

This project “smart management of street lights for energy conservation using iot” is a cost effective, practical, ecofriendly and the safest way to save energy and this system the light status information can be accessed from anytime and anywhere. It clearly tackles the two problems that world is facing today, saving of energy and also disposal of incandescent lamps, very efficiently.

Abstract

Agriculture plays an important role in Indian economy. The main issues which are faced in farming are water deficiency and high costs expected by labors. These major issues can be solved using smart automated irrigation system.

Agriculture contributes to a major portion of India’s GDP. These issues can be resolved using agriculture task automation, which encourages precision agriculture. Considering abundance of sunlight in India we developed this project.

These major issues can be solved using smart automated irrigation system. So we proposed a redness based smart farming using solar panel. This system consists of 3 sensors temperature, soil moisture and luminosity and senses the soil level. When soil moisture is less than the threshold level, the water is pumped to the crop. Various numbers of operations are performed in the agriculture field. Very basic operation is seeding. But the present methods of seeding are problematic. The equipment’s which are used for seed sowing are inconvenient to handle. So there is a need to develop the system which reduce the efforts of farmers. This system introduces an efficient mechanism which aims to drop seeds at desired position with specified distance between two seeds and lines while sowing. These operations are controlled by the human using mobile through SMS. The controller passes the information which is gathered from various sensors to server utilizing GPRS.

Keywords: LCD, NodeMCU, Bluetooth sensor, soil moisture sensor, LDR, solar panel, servo motor, DC motor, relay, L293D, GSM, DC pump.

NOTE: Without the concern of our team, please don't submit to the college. This Abstract varies based on student requirements.

Block Diagram

Arduino,Soil moisture sensor,Temperature sensor,GSM,Robotics

Specifications

Hardware requirements:

Arduino
Node MCU
Soil moisture Sensor
Temperature Sensor
LDR Sensor
Bluetooth
Solar panel
Battery
Dc motor
Motor driver
Servo motor
GSM
Relay
Water pump
LCD
Power supply

Software requirements:

Arduino IDE
Embedded C

Learning Outcomes

Arduino Pin diagram and Architecture
How to install Arduino IDE Software
Setting up and Installation procedures for Arduino IDE
Introduction to Arduino IDE
Commands in Embedded C
How to install Libraries?
Basic coding in Embedded C
Working of Soil moisture Sensor
How to interface Soil moisture Sensor with Arduino?
Working of Temperature Sensor
How to interface Temperature Sensor with Arduino?
About Project Development Life Cycle:

Planning and Requirement Gathering (software’s, Tools, Hardware components, etc.,)
Schematic preparation
Code development and debugging
Hardware development and debugging
Development of the Project and Output testing