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Internet of Things (IoT) Enabled Automation in Agriculture [Hardback]

(Uttaranchal University, India), , (Schematics Microelectronics, Dehradun, INDIA),
  • Formāts: Hardback, 12 pages, height x width: 229x152 mm, weight: 303 g, 12 Tables, black and white; 44 Halftones, black and white; 44 Illustrations, black and white
  • Izdošanas datums: 23-Dec-2022
  • Izdevniecība: CRC Press
  • ISBN-10: 1032428740
  • ISBN-13: 9781032428741
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  • Hardback
  • Cena: 126,23 €
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Internet of Things (IoT) Enabled Automation in AgriculturePalielināt
  • Formāts: Hardback, 12 pages, height x width: 229x152 mm, weight: 303 g, 12 Tables, black and white; 44 Halftones, black and white; 44 Illustrations, black and white
  • Izdošanas datums: 23-Dec-2022
  • Izdevniecība: CRC Press
  • ISBN-10: 1032428740
  • ISBN-13: 9781032428741
Citas grāmatas par šo tēmu:
Permanent link: https://www.kriso.lv/db/9781032428741.html
Keywords:
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.

It will serve be a reference book 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.

This book is co-published with NIPA. Taylor and Francis does not sell or distribute its print and electronic editions in India, Pakistan, Nepal, Bhutan, Bangladesh and Sri Lanka.
Preface v
1 Introduction to Internet of Things
1(4)
2 Role of Arduino in Agricultural Field and its Interfacing with External Devices
5(8)
2.1 Introduction
5(1)
2.2 Circuit Diagram
6(3)
2.3 Program
9(4)
3 Role of Node MCU in Agricultural Field and its Interfacing with External Devices
13(4)
3.1 Introduction
13(1)
3.2 Temperature Sensor Interfacing with NodeMCU
14(3)
3.2.1 Circuit Diagram
15(1)
3.2.2 Program
16(1)
4 Development of BLYNK App to Automate Agriculture Field
17(10)
4.1 Introduction
17(1)
4.2 Circuit Diagram
18(2)
4.3 Program
20(4)
4.4 Blynk APP
24(3)
5 Development of Local web Server for Automation
27(8)
5.1 Introduction
27(1)
5.2 Circuit Diagram
28(1)
5.3 Program
29(5)
5.4 Local Web server
34(1)
6 Lab VIEW Based Data Logger for Agricultural Field Parameters Monitoring System
35(20)
6.1 Introduction
35(3)
6.2 Circuit Diagram
38(2)
6.2.1 Field device connections
38(1)
6.2.2 Lab VIEW based Data logger connection
39(1)
6.3 Program
40(9)
6.3.1 Field device code
40(6)
6.3.2 Data logger Code
46(3)
6.4 LabVIEW GUI
49(3)
6.4.1 Steps to design LabVIEW GUI
49(1)
6.4.2 Design steps for front Panel
49(1)
6.4.3 Building the Block Diagram
49(1)
6.4.4 Virtual Instrument Software Architecture (VISA)
50(2)
6.5 LabVIEW GUI for the system
52(3)
7 MATLAB Based Data Logger for Agricultural Field Parameters Monitoring System
55(10)
7.1 Introduction
55(1)
7.2 Circuit Diagram
56(2)
7.3 Procedure to run I/O package
58(1)
7.4 MATLAB GUI
58(1)
7.4.1 Steps to create GUI in MATLAB
58(1)
7.5 MATLAB Code
59(4)
7.6 MATLAB GUI for the system
63(2)
8 A smart Control for Site-specific Management of Fixed Irrigation System
65(12)
8.1 Introduction
65(1)
8.2 Circuit Diagram
66(3)
8.3 Program
69(6)
8.3.1 Arduino code
69(2)
8.3.2 NodeMCU code
71(4)
8.4 BLYNK app
75(2)
9 iCould and Cayenne Based Perimeter Monitoring System for Agricultural Field
77(12)
9.1 Introduction
77(1)
9.2 Circuit Diagram
78(2)
9.3 Program
80(5)
9.3.1 Program for Arduino
80(3)
9.3.2 Program for NodeMCU
83(2)
9.4 Cayenne App
85(4)
9.4.1 Steps to add NodeMCU in cayenne cloud
85(4)
10 Scilab Based Data Logger for Plant Protection from Fire in Agricultural Field
89(6)
10.1 Introduction
89(1)
10.2 Circuit Diagram
90(1)
10.3 Procedure to run Arduino I/O package with Scilab
91(1)
10.4 Scilab XCOS model
91(4)
11 Smart Greenhouse Monitoring System for Flower Plant Growth
95
11.1 Introduction
95(3)
11.2 Circuit Diagram
98(2)
11.2.1 Sensor Node
98(1)
11.2.2 Local Server
99(1)
11.3 Program
100(11)
11.3.1 Sensor Node
100(7)
11.3.2 Local Server
107(4)
11.4 Main Server
111
Rajesh Singh is currently associated with University of Petroleum and Energy studies, Dehradun as Associate Professor and with additional responsibility as Head Institute of Robotics Technology.

Anita Gehlot has more than ten years of teaching experience with area of expertise embedded systems and wireless sensor networks. She has ten patents in her account.

Bhupendra Singh is Managing director of Schematics Microelectronics and provides Product design and support to industries and Universities.

Sushabhan Choudhury is Head of the Department of Electronics, Instrumentation, and Control in the University of Petroleum and Energy Studies.