Arduino Based Embedded Systems Interfacing Simulation and LabVIEW GUI 1st Edition by Rajesh Singh, Anita Gehlot, Bhupendra Singh, Sushabhan Choudhury ISBN 1351669532 9781351669535

Arduino-Based Embedded Systems: Interfacing, Simulation, and LabVIEW GUI 1st Edition by Rajesh Singh, Anita Gehlot, Bhupendra Singh, Sushabhan Choudhury – Ebook PDF Instant Download/Delivery: 1351669532, 978-1351669535
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Product details:

ISBN 10:    1351669532
ISBN 13: 978-1351669535
Author:      Rajesh Singh, Anita Gehlot, Bhupendra Singh, Sushabhan Choudhury

Arduino-Based Embedded Systems: Interfacing, Simulation, and LabVIEW GUI 1s Table of contents:

1. Introduction to Arduino

• 1.1 Arduino Uno
• 1.2 Arduino Mega
• 1.3 Arduino Nano

2. Steps to Write a Program with Arduino Integrated Development Environment

• 2.1 Steps to Install Arduino IDE
• 2.2 Basic Commands for Arduino

3. Steps to Design a Proteus Simulation Model

4. Introduction to LabVIEW GUI

• 4.1 Steps to Design LabVIEW GUI
• 4.2 Building the Front Panel
• 4.3 Building the Block Diagram
• 4.4 Virtual Instrument Software Architecture
  • 4.4.1 Components Used to Design LabVIEW GUI

5. LabVIEW Interfacing with Proteus Simulation Software

• 5.1 Virtual Serial Port Emulator

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Section II: Arduino and I/O Devices

6. Arduino and Display Devices

• 6.1 Arduino and Light Emitting Diode
  • 6.1.1 Circuit Diagram
  • 6.1.2 Program
  • 6.1.3 Proteus Simulation Model
• 6.2 Arduino and Liquid Crystal Display
  • 6.2.1 Circuit Diagram
  • 6.2.2 Program
  • 6.2.3 Proteus Simulation Model

7. Arduino and Digital Input/Output Devices

• 7.1 Push Button and LED/LCD
• 7.2 Push Button – Digital “LOW”
  • 7.2.1 Circuit Diagram
  • 7.2.2 Program
  • 7.2.3 Proteus Simulation Model
• 7.3 Push Button – Digital “HIGH”
  • 7.3.1 Program
  • 7.3.2 Proteus Simulation Model
• 7.4 Fire Sensor and LED/LCD
• 7.5 Passive Infrared Sensor and LED/LCD
• 7.6 Alcohol Sensor and LED/LCD

8. Arduino and Analog Devices

• 8.1 Ultrasonic Sensor and LCD
• 8.2 Ultrasonic Sensor – Serial Out
• 8.3 Ultrasonic Sensor – PWM Out
• 8.4 Temperature Sensor and LCD
• 8.5 Temperature Sensor – Analog Out
• 8.6 Humidity/Temperature Sensor – Serial Out
• 8.7 Light-Dependent Resistor with LCD
• 8.8 Light-Dependent Resistor – Analog Out
• 8.9 Light Intensity Sensor – I2C Out
• 8.10 Servo Motor and LCD

9. Arduino and Motors/Actuators

• 9.1 DC Motor
• 9.2 Stepper Motor
• 9.3 AC Motor with Relay

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Section III: Arduino and Wireless Communication

10. Arduino and Wireless Communication

• 10.1 RF Modem (2.4 GHz)
  • 10.1.1 Circuit Diagram
  • 10.1.2 Program
• 10.2 GSM Modem
  • 10.2.1 Circuit Diagram
  • 10.2.2 Program

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Section IV: Projects

11. 2.4 GHz RF Modem-Based Security System for Restricted Area

• 11.1 Introduction
• 11.2 Circuit Diagram
• 11.3 Program
• 11.4 Proteus Simulation Model
• 11.5 LabVIEW GUI

12. Campus Fire Monitoring System with RF Modem

• 12.1 Introduction
• 12.2 Circuit Diagram
• 12.3 Program
• 12.4 Proteus Simulation Model
• 12.5 LabVIEW GUI

13. Light-Dependent Resistor-Based Light Intensity Control System

• 13.1 Introduction
• 13.2 Circuit Diagram
• 13.3 Program
• 13.4 Proteus Simulation Model
• 13.5 LabVIEW GUI

14. DC Motor Control System with LabVIEW GUI

• 14.1 Introduction
• 14.2 Circuit Diagram
• 14.3 Program
• 14.4 Proteus Simulation Model
• 14.5 LabVIEW GUI

15. Stepper Motor Control System with LabVIEW GUI

• 15.1 Introduction
• 15.2 Circuit Diagram
• 15.3 Program
• 15.4 Proteus Simulation Model
• 15.5 LabVIEW GUI

16. Accelerometer-Based Laboratory Automation System

• 16.1 Introduction
• 16.2 Circuit Diagram
• 16.3 Program
• 16.4 Proteus Simulation Model

17. Temperature Monitoring System Using RF Modem

• 17.1 Introduction
• 17.2 Circuit Diagram
• 17.3 Program
• 17.4 Proteus Simulation Model
• 17.5 LabVIEW GUI

18. Emergency Hooter in the Case of a Disaster

• 18.1 Introduction
• 18.2 Circuit Diagram
• 18.3 Program
• 18.4 Proteus Simulation Model
• 18.5 LabVIEW GUI

19. LabVIEW GUI-Based Wireless Robot Control System

• 19.1 Introduction
• 19.2 Circuit Diagram
• 19.3 Program
• 19.4 Proteus Simulation Model
• 19.5 LabVIEW GUI

20. Home Automation System Using DTMF

• 20.1 Introduction
• 20.2 Circuit Diagram
• 20.3 Program
• 20.4 Proteus Simulation Model

21. RFID Card-Based Attendance System

• 21.1 Introduction
• 21.2 Circuit Diagram
• 21.3 Program

22. Global System for Mobile-Based Emergency System

• 22.1 Introduction
• 22.2 Circuit Diagram
• 22.3 Program
• 22.4 Proteus Simulation Model

23. Coordinate Display System Using GPS

• 23.1 Introduction
• 23.2 Circuit Diagram
• 23.3 Program
• 23.4 Proteus Simulation Model

24. Fingerprint-Based Attendance System

• 24.1 Introduction
• 24.2 Circuit Diagram
• 24.3 Program

25. Wireless Irrigation System for Agricultural Field

• 25.1 Introduction
• 25.2 Circuit Diagram
• 25.3 Program
• 25.4 Proteus Simulation Model

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Rajesh Singh,Anita Gehlot,Bhupendra Singh,Sushabhan Choudhury,Arduino Based,Embedded Systems,Interfacing,Simulation,LabVIEW GUI 1s