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Arduino Meets MATLAB : Interfacing, Programs and Simulink.

By: Contributor(s): Material type: TextTextPublisher: Sharjah : Bentham Science Publishers, 2018Copyright date: ©2018Edition: 1st edDescription: 1 online resource (164 pages)Content type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9781681087276
Subject(s): Genre/Form: Additional physical formats: Print version:: Arduino Meets MATLAB: Interfacing, Programs and SimulinkDDC classification:
  • 518.028553
LOC classification:
  • QA297 .A738 2018
Online resources:
Contents:
Intro -- CONTENTS -- FOREWORD -- PREFACE -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- SECTION A: Arduino and its Interfacing -- Introduction to Arduino, Arduino IDE and Proteus Software -- ADVANTAGES -- 1.1. ARDUINO UNO -- 1.2. ARDUINO MEGA -- 1.3. ARDUINO NANO -- 1.4. ARDUINO IDE -- 1.4.1. Steps to Install Arduino IDE -- 1.4.2. Basic Commands -- 1.5. INTRODUCTION TO PROTEUS SIMULATION SOFTWARE -- 1.5.1. Steps to Design a Proteus Simulation Model -- Arduino Interfacing with Display Devices -- 2.1. LIGHT EMITTING DIODE (LED) -- 2.1.1. Circuit Diagram -- 2.1.2. Program -- 2.1.3. Proteus Simulation Model -- 2.2. SEVEN SEGMENT DISPLAY -- 2.2.1. Circuit Diagram -- 2.2.2. Program -- 2.2.3. Proteus Simulation Model -- 2.3. LIQUID CRYSTAL DISPLAY -- 2.3.1. Circuit Diagram -- 2.3.2. Program -- 2.3.3. Proteus Simulation Model -- Arduino Interfacing with Digital Sensors -- 3.1. FLAME SENSOR -- 3.1.1. Circuit Diagram -- 3.1.2. Program -- 3.1.3. Proteus Simulation Model -- 3.2. PIR SENSOR -- 3.2.1. Circuit Diagram -- 3.2.3. Program -- 3.2.3. Proteus Simulation Model -- 3.3. GAS SENSOR -- 3.3.1. Circuit Diagram -- 3.3.2. Program -- 3.3.3. Proteus Simulation Model -- Arduino Interfacing with Analog Sensors -- 4.1. ULTRASONIC SENSOR -- 4.1.1. Circuit Diagram -- 4.1.2. Program -- 4.1.3. Proteus Simulation Model -- 4.2. TEMPERATURE (LM35) SENSOR -- 4.2.1. Circuit Diagram -- 4.2.2. Program -- 4.2.3. Proteus Simulation Model -- Arduino Interfacing with Actuators -- 5.1. DC MOTOR CONTROL WITH TRANSISTOR 'H' BRIDGE -- 5.1.1. Circuit Diagram -- 5.1.2. Program -- 5.1.3. Proteus Simulation Model -- 5.2. DC MOTOR CONTROL WITH L293D -- 5.2.1. Circuit Diagram -- 5.2.2. Program -- 5.2.3. Proteus Simulation Model -- 5.3. STEPPER MOTOR -- 5.3.1. Circuit Diagram -- 5.3.2. Program -- 5.3.3. Proteus Simulation Model -- 5.4. SERVO MOTOR.
5.4.1. Circuit Diagram -- 5.4.2. Program -- 5.4.3. Proteus Simulation Model -- 5.5. SERVO MOTOR CONTROL WITH POT -- 5.5.1. Circuit Diagram -- 5.5.2. Program -- 5.5.3. Proteus Simulation Model -- 5.6. AC MOTOR -- 5.6.1. Circuit Diagram -- 5.6.2. Program -- 5.6.3. Proteus Simulation Model -- Arduino Interfacing with Wireless Modems -- 6.1. XBEE MODEM -- 6.1.1. Configuration of XBee -- 6.1.2. XBee Interfacing with Arduino -- 6.1.3. Circuit Diagram -- 6.1.4. Program -- 6.1.5. Proteus Simulation Model -- MATLAB GUI -- 7.1. GRAPHICAL USER INTERFACE (GUI) -- 7.1.1. Steps to Create GUI in MATLAB -- SECTION B: Arduino Interfacing with MATLAB using I/O Package -- Simulink and Arduino I/O Package -- 8.1. GET STARTED WITH SIMULINK ARDUINO I/O PACKAGE -- 8.1.1. Steps to Install Arduino I/O Package in MATLAB -- 8.1.2. Making Arduino Compatible with MATLAB -- 8.1.3. Creating Model in Simulink -- 8.2. READ BLOCKS -- 8.3. WRITE BLOCKS -- Digital Read/Write and Analog Read/Write with Arduino I/O Package -- 9.1. DIGITAL READ/WRITE -- 9.1.1. Circuit Diagram -- 9.1.2. Simulink Model -- 9.2. ANALOG READ/WRITE -- 9.2.1. Circuit Diagram -- 9.2.2. Simulink Model -- Digital Read with Proximity and Touch Sensor and Digital Write on LED with Arduino I/O Package -- 10.1. CIRCUIT DIAGRAM -- 10.2. SIMULINK MODEL -- Key Touch Sensor Based Home Automation with Arduino I/O Package -- 11.1. CIRCUIT DIAGRAM -- 11.2. SIMULINK MODEL -- Sun Tracker System Using LDR with Arduino I/O Package -- 12.1. CIRCUIT DIAGRAM -- 12.2. SIMULINK MODEL -- Robot Control and Sensor Data Acquisition System with Arduino I/O Package -- 13.1. CIRCUIT DIAGRAM -- 13.2. MATLAB GUI -- Program -- Two Analog Sensors [POT and LM35] Interfacing with Arduino I/O Package -- 14.1. CIRCUIT DIAGRAM -- 14.2. MATLAB GUI -- Program -- Three Sensors Data Acquisition and Feedback System with MATLAB and Arduino I/O Package.
15.1. CIRCUIT DIAGRAM -- 15.2. MATLAB GUI -- Program -- SECTION C: Arduino Interfacing with MATLAB without I/O Package -- Building Automation System -- 16.1. CIRCUIT DIAGRAM -- 16.2. PROGRAM -- 16.3. MATLAB GUI -- Program -- Robot Control with MATLAB GUI -- 17.1. CIRCUIT DIAGRAM -- 17.2. PROGRAM -- 17.3. MATLAB GUI -- Program -- One Analog Channel and Digital Write Using MATLAB GUI -- 18.1. CIRCUIT DIAGRAM -- 18.2. PROGRAM -- 18.3. MATLAB GUI -- Program -- BIBLIOGRAPHY -- SUBJECT INDEX.
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Intro -- CONTENTS -- FOREWORD -- PREFACE -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- SECTION A: Arduino and its Interfacing -- Introduction to Arduino, Arduino IDE and Proteus Software -- ADVANTAGES -- 1.1. ARDUINO UNO -- 1.2. ARDUINO MEGA -- 1.3. ARDUINO NANO -- 1.4. ARDUINO IDE -- 1.4.1. Steps to Install Arduino IDE -- 1.4.2. Basic Commands -- 1.5. INTRODUCTION TO PROTEUS SIMULATION SOFTWARE -- 1.5.1. Steps to Design a Proteus Simulation Model -- Arduino Interfacing with Display Devices -- 2.1. LIGHT EMITTING DIODE (LED) -- 2.1.1. Circuit Diagram -- 2.1.2. Program -- 2.1.3. Proteus Simulation Model -- 2.2. SEVEN SEGMENT DISPLAY -- 2.2.1. Circuit Diagram -- 2.2.2. Program -- 2.2.3. Proteus Simulation Model -- 2.3. LIQUID CRYSTAL DISPLAY -- 2.3.1. Circuit Diagram -- 2.3.2. Program -- 2.3.3. Proteus Simulation Model -- Arduino Interfacing with Digital Sensors -- 3.1. FLAME SENSOR -- 3.1.1. Circuit Diagram -- 3.1.2. Program -- 3.1.3. Proteus Simulation Model -- 3.2. PIR SENSOR -- 3.2.1. Circuit Diagram -- 3.2.3. Program -- 3.2.3. Proteus Simulation Model -- 3.3. GAS SENSOR -- 3.3.1. Circuit Diagram -- 3.3.2. Program -- 3.3.3. Proteus Simulation Model -- Arduino Interfacing with Analog Sensors -- 4.1. ULTRASONIC SENSOR -- 4.1.1. Circuit Diagram -- 4.1.2. Program -- 4.1.3. Proteus Simulation Model -- 4.2. TEMPERATURE (LM35) SENSOR -- 4.2.1. Circuit Diagram -- 4.2.2. Program -- 4.2.3. Proteus Simulation Model -- Arduino Interfacing with Actuators -- 5.1. DC MOTOR CONTROL WITH TRANSISTOR 'H' BRIDGE -- 5.1.1. Circuit Diagram -- 5.1.2. Program -- 5.1.3. Proteus Simulation Model -- 5.2. DC MOTOR CONTROL WITH L293D -- 5.2.1. Circuit Diagram -- 5.2.2. Program -- 5.2.3. Proteus Simulation Model -- 5.3. STEPPER MOTOR -- 5.3.1. Circuit Diagram -- 5.3.2. Program -- 5.3.3. Proteus Simulation Model -- 5.4. SERVO MOTOR.

5.4.1. Circuit Diagram -- 5.4.2. Program -- 5.4.3. Proteus Simulation Model -- 5.5. SERVO MOTOR CONTROL WITH POT -- 5.5.1. Circuit Diagram -- 5.5.2. Program -- 5.5.3. Proteus Simulation Model -- 5.6. AC MOTOR -- 5.6.1. Circuit Diagram -- 5.6.2. Program -- 5.6.3. Proteus Simulation Model -- Arduino Interfacing with Wireless Modems -- 6.1. XBEE MODEM -- 6.1.1. Configuration of XBee -- 6.1.2. XBee Interfacing with Arduino -- 6.1.3. Circuit Diagram -- 6.1.4. Program -- 6.1.5. Proteus Simulation Model -- MATLAB GUI -- 7.1. GRAPHICAL USER INTERFACE (GUI) -- 7.1.1. Steps to Create GUI in MATLAB -- SECTION B: Arduino Interfacing with MATLAB using I/O Package -- Simulink and Arduino I/O Package -- 8.1. GET STARTED WITH SIMULINK ARDUINO I/O PACKAGE -- 8.1.1. Steps to Install Arduino I/O Package in MATLAB -- 8.1.2. Making Arduino Compatible with MATLAB -- 8.1.3. Creating Model in Simulink -- 8.2. READ BLOCKS -- 8.3. WRITE BLOCKS -- Digital Read/Write and Analog Read/Write with Arduino I/O Package -- 9.1. DIGITAL READ/WRITE -- 9.1.1. Circuit Diagram -- 9.1.2. Simulink Model -- 9.2. ANALOG READ/WRITE -- 9.2.1. Circuit Diagram -- 9.2.2. Simulink Model -- Digital Read with Proximity and Touch Sensor and Digital Write on LED with Arduino I/O Package -- 10.1. CIRCUIT DIAGRAM -- 10.2. SIMULINK MODEL -- Key Touch Sensor Based Home Automation with Arduino I/O Package -- 11.1. CIRCUIT DIAGRAM -- 11.2. SIMULINK MODEL -- Sun Tracker System Using LDR with Arduino I/O Package -- 12.1. CIRCUIT DIAGRAM -- 12.2. SIMULINK MODEL -- Robot Control and Sensor Data Acquisition System with Arduino I/O Package -- 13.1. CIRCUIT DIAGRAM -- 13.2. MATLAB GUI -- Program -- Two Analog Sensors [POT and LM35] Interfacing with Arduino I/O Package -- 14.1. CIRCUIT DIAGRAM -- 14.2. MATLAB GUI -- Program -- Three Sensors Data Acquisition and Feedback System with MATLAB and Arduino I/O Package.

15.1. CIRCUIT DIAGRAM -- 15.2. MATLAB GUI -- Program -- SECTION C: Arduino Interfacing with MATLAB without I/O Package -- Building Automation System -- 16.1. CIRCUIT DIAGRAM -- 16.2. PROGRAM -- 16.3. MATLAB GUI -- Program -- Robot Control with MATLAB GUI -- 17.1. CIRCUIT DIAGRAM -- 17.2. PROGRAM -- 17.3. MATLAB GUI -- Program -- One Analog Channel and Digital Write Using MATLAB GUI -- 18.1. CIRCUIT DIAGRAM -- 18.2. PROGRAM -- 18.3. MATLAB GUI -- Program -- BIBLIOGRAPHY -- SUBJECT INDEX.

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Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2024. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.

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