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Internet of Things (IoT) Enabled Automation in Agriculture

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Internet of Things (IoT) Enabled Automation in AgricultureНазвание: Internet of Things (IoT) Enabled Automation in Agriculture
Автор: Rajesh Singh, Anita Gehlot, Bhupendra Singh, Sushabhan Choudhury
Издательство: CRC Press
Год: 2023
Страниц: 126
Язык: английский
Формат: pdf (true)
Размер: 10.1 MB

This book provides basic knowledge of the programming and interfacing of devices with IoT modem and programming. The aim is to explain the basic steps to understand the IoT and its application in agriculture field.

The primary objective of writing this book is to provide a platform to beginners to get started with Internet of Things based ‘Embedded system’ with basic knowledge of the programming and interfacing of the devices.

The book comprises of eleven chapters including introduction of IoT, NodeMCU and interfacing of input output devices.

To understand IoT “Internet of Things” it is important to understand Internet first. Internet is connecting a device to other device anywhere in the world. The Internet of Things (IoT) is inter-connecting the networks of smart devices. Smart devices may be embedded with vehicles, buildings, or other electronics object with software, sensors, actuators, and network connectivity. Network connectivity enables smart devices to collect and exchange data. The Internet of Things (IoT), also referred to as the Internet of Everything (IoE) which comprises of the web-enabled devices. IoT has its applications in smart city, smart surveillance, automated transportation, smarter energy management systems, water distribution, urban security and environmental monitoring. Agriculture is another new area of IoT application.

Automation of agricultural field with IoT and microcontroller is new era of technology. Arduino based solution to agricultural field is open source platform. It can be used for developing data loggers and new sensors environment. The rate of solutions with Arduino and sensors is high as it is open source platform. The use of Arduino in agriculture can accelerate the growth of automation. Arduino can be interfaced with sensors like:

- Temperature
- Humidity
- Soil Moisture
- Water Pressure
- Water Flow and Water Metering
- Rain Gauge
- Wind Speed

Internet of Things (IoT) allows computational devices and sensory support to connect with each other and access services on the Internet. The IoT idea was introduced to connect devices through the Internet and facilitate access to information for users. The potential application of IoT includes agriculture. The aim of the Chapter 3 is to explain the role of NodeMCU in the agriculture fi eld. NodeMCU is IoT module which can be used to present the IoT concept as a basis for monitoring and control. The systems used in farm production processes. NodeMCU play a key role, with a focus on their realization by available microcontroller platforms and appropriate sensors. IoT based system provides opportunity to users to monitor and control the process remotely.

The objective of the Chapter 4 is to design a mobile app for agricultural field automation with Blynk app. Mobile app is designed to control the water management in fi eld as per requirement. The complete system comprises of two sections sensor node and mobile app. Sensor node comprises of Node MCU, Power supply, LCD, Relay board, soil sensor and Ultrasonic sensor. The system is designed to establish control and communication with specifi c agricultural field to take sensory data from soil and ultrasonic level sensor and control the PUMP IN motor and PUMP OUT motor with the help of mobile app.

The chapter 7 describes the development of data logger of agricultural field parameter monitoring system with MATLAB. The system comprises of Arduino, water level sensor, humidity sensor, light sensor, soil moisture sensor, temperature sensor, smoke detector, power supply, PC with MATLAB. The system is designed to monitor the environment and agriculture field parameters. The fi eld device is designed to collect all physical parameters and same is communicated serially to MATLAB with I/O package.

The objective of the Chapter 10 is to develop a data logger and indicator for fire detection in agriculture field. The data logger is designed with the help of Scilab. The system comprises of Arduino Nano, light sensor, MQ6, MQ135, IR sensor, temperature sensor, power supply. The system is designed to take sensory data on Scilab with serial communication.

The application of greenhouse in agriculture is vast. Greenhouses are used for growing flowers, vegetables, fruits, transplants and varieties of certain crops in a controlled environment which is appropriate for the plants. The edible flowers are served in some good restaurants to grow them precise calculation is required. Sensor network can help to monitor and automate the activities in greenhouse. The objective of the Chapter 11 is to discuss the development of sensor nodes to monitor the growth of flower plants through XBee and Internet of Things. The system comprises of three sections- sensor nodes, local server and main server. Sensor nodes communicate to local server with XBee and then local server communicates the same data to main server through IoT.

Book will serve be a reference for postgraduate and undergraduate Engineering students. Students from Electronics, Electrical, Mechatronics, Robotics, Mechanical, Computer science can use the book for their projects and research. This book is based entirely on the practical experience of the authors while undergoing projects with the students and industries.

Table of Contents:

Preface
1. Introduction to Internet of Things
2. Role of Arduino in Agricultural Field and its Interfacing with External Devices
3. Role of Node MCU in Agricultural Field and its Interfacing with External Devices
4. Development of BLYNK App to Automate Agriculture Field
5. Development of Local web Server for Automation
6. LabVIEW Based Data Logger for Agricultural Field Parameters Monitoring System
7. MATLAB Based Data Logger for Agricultural Field Parameters Monitoring System
8. A smart Control for Site-specific Management of Fixed Irrigation System
9. iCould and Cayenne Based Perimeter Monitoring System for Agricultural Field
10. Scilab Based Data Logger for Plant Protection from Fire in Agricultural Field
11. Smart Greenhouse Monitoring System for Flower Plant Growth

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