TI ARM Cortex-M LaunchPad Programming by Example

by Agus Kurniawan 16. November 2014 20:49
Stellaris LM4F120 and Tiva C Series LaunchPad is great products based ARM Cortex-M for learning. I released a new book, TI ARM Cortex-M LaunchPad Programming by Example. This book helps you to get started with Stellaris LM4F120 and Tiva C Series LaunchPad and how to build programs using Energia and Code Composer Studio. Table of Content 1. Preparing Development Environment 1.1 TI LaunchPad for ARM Series 1.2 Getting Hardware 1.3 Development Tools 1.4 Electronics Devices 1.5 Stellaris and Tiva C LaunchPad GPIO 1.6 Connecting to Computer 1.6.1 Windows Platform 1.6.2 Ubuntu Linux Platform 2. Digital Input/Output 2.1 Getting Started 2.2 Hello World - Blinking LED 2.2.1 Hardware Configuration 2.2.2 Writing Program 2.2.3 Configuring Board Target 2.2.4 Testing 2.3 Extended Blinking Program 2.4 Getting Input from Button 2.4.1 Hardware Configuration 2.4.2 Writing Program 2.4.3 Testing 2.5 Demo: Seven-Segment Display 2.5.1 Getting Started with 7 Segment Display 2.5.2 Deploying Hardware Wiring 2.5.3 Writing Program 2.5.4 Testing 3. Serial Communication - UART 3.1 Stellaris and Tiva C LaunchPad UART 3.2 Hello Stellaris and Tiva C UART 3.3 UART and Switch Button 4. Analog Input/Output 4.1 Getting Started 4.2 Reading Analog Input 4.2.1 Hardware Configuration 4.2.2 Writing Application 4.2.3 Testing 4.3 Working with Analog Output 4.3.1 RGB LED 4.3.2 Hardware Configuration 4.3.3 Writing Application 4.3.4 Testing 5. I2C/TWI and SPI 5.1 Getting Started with I2C/TWI 5.2 Demo 1: Sensor Device Based I2C 5.2.1 Sensor Device Base I2C 5.2.2 Writing Program 5.2.3 Testing 5.3 Demo 2: Actuator Device Based I2C 5.3.1 Actuator Device 5.3.2 Writing Program 5.3.3 Testing 5.4 Getting Started with SPI 5.5 Demo 3: Hello SPI 5.5.1 Hardware Configuration 5.5.2 Writing Program 5.5.3 Testing 6. Working with Servo Motor 6.1 Servo Motor 6.2 Hardware Implementation 6.3 Writing Program 6.4 Testing 7. Building Program Using Code Composer Studio 7.1 Getting Started 7.2 TivaWare for C Series Software 7.3 Demo : Blinking LED 7.3.1 Hardware Configuration 7.3.2 Creating A Project 7.3.3 Including TivaWare Library Into A Project 7.3.4 Writing Code 7.3.5 Running and Debugging 8. Code Composer Studio 6.x Workshop 8.1 Getting Started 8.2 Demo 1: GPIO 8.2.1 Hardware Configuration 8.2.2 Create A Project 8.2.3 Writing Program 8.2.4 Testing 8.3 Demo 2: Reading Analog 8.3.1 Hardware Configuration 8.3.2 Create A Project 8.3.3 Writing Program 8.3.4 Testing 8.3.5 Monitoring Values on Debugging 8.4 Demo 3: UART 8.4.1 Hardware Configuration 8.4.2 Create A Project 8.4.3 Writing Program 8.4.4 Testing 8.5 Demo 4: I2C 8.5.1 Hardware Configuration 8.5.2 Create A Project 8.5.3 Writing Program 8.5.4 Testing 8.6 Demo 5: SPI 8.6.1 Hardware Configuration 8.6.2 Create A Project 8.6.3 Writing Program 8.6.4 Testing   How to Buy You can get this book on the following store. Lulu, http://www.lulu.com/shop/agus-kurniawan/ti-arm-cortex-m-launchpad-programming-by-example/ebook/product-21900846.html  Kobo Store, http://store.kobobooks.com/en-US/ebook/ti-arm-cortex-m-launchpad-programming-by-example  Kindle Amazon, http://www.amazon.com/dp/B00PP4PP88  Google Play Books, https://play.google.com/store/books/details?id=3QFqBQAAQBAJ iBookStore, http://itunes.apple.com/us/book/isbn9781312681200  

Tags:

Books | C/C++ | Embedded System | TI LaunchPad

Getting Started with pcDuino3

by Agus Kurniawan 2. November 2014 15:34
Today I publish my new book, Getting Started with pcDuino3. This book helps you to work with pcDuino3, for instance, deploying, configuring and developing.   Table of Content 1. Preparing Development Environment 1.1 pcDuino3 1.2 Getting Hardware 1.3 Development Tools 1.4 Electronics Devices 1.5 pcDuino3 Unboxing 2. Basic Configuration 2.1 Getting Started 2.2 Running pcDuino3 2.3 Configuring Network 2.4 SSH 2.5 Remote Desktop with VNC 2.6 SFTP 2.7 Connecting to WIFI 2.8 Browser and Internet 2.9 Updating Software Package 2.10 Reboot and Shutdown 3. pcDuino3 Programming Language 3.1 Getting Started 3.2 C/C++ 3.3 Python 3.4 Java 3.5 .NET Mono (C#) 3.6 Node.js 4. Deploying LAMP 4.1 Getting Started 4.2 Installing Apache Server 4.3 Installing MySQL 4.4 Installing PHP and MySQL Driver for PHP 4.5 Testing PHP 4.6 Testing PHP and MySQL 5. Working with Arduino IDE Software 5.1 pcDuino3 and Arduino IDE Software 5.2 Hello pcDuino3 and Arduino 5.2.1 Hardware Configuration 5.2.2 Building Application 5.2.3 Testing 5.3 Demo: Seven-Segment Display 5.3.1 Getting Started with 7 Segment Display 5.3.2 Deploying Hardware Wiring 5.3.3 Building Application 5.3.4 Testing 5.4 Working with Serial Communication (UART) 5.5 Reading Analog Input 5.5.1 Hardware Configuration 5.5.2 Writing Application 5.5.3 Testing 5.6 Working with Analog Output 5.6.1 RGB LED 5.6.2 Hardware Configuration 5.6.3 Writing Application 5.6.4 Testing 6. pcDuino3 I/O Programming using Python 6.1 Getting Started 6.2 GPIO 6.3 Reading Analog Input 6.4 UART 6.5 SPI 6.5.1 Accessing SPI using Arduino Software 6.5.2 Accessing SPI using Python 6.6 I2C/TWI 7. pcDuino3 Serial Debugging 7.1 Preparation 7.2 Serial Debugging 7.3 Testing 8. Working with XBee IEEE 802.15.4 8.1 XBee IEEE 802.15.4 8.2 Getting Hardware 8.3 Connecting XBee IEEE 802.15.4 to pcDuino3 8.4 XBee with AT Command 8.5 Demo Chatting Program 8.5.1 Hardware Configuration 8.5.2 XBee Configuration 8.5.3 Writing Python Program for pcDuino3 8.5.4 Testing 8.6 XBee with API Mode 8.7 Further Reading 9. Reflashing Ubuntu NAND 9.1 Getting Started 9.2 Reflashing Ubuntu NAND   How to Buy You can get this book on the following book stores. Lulu, http://www.lulu.com/shop/agus-kurniawan/getting-started-with-pcduino3/ebook/product-21879308.html  Kobo Books, http://store.kobobooks.com/en-US/ebook/getting-started-with-pcduino3  Amazon Kindle, http://www.amazon.com/dp/B00P4XT6EE  Google Play Books, https://play.google.com/store/books/details?id=P10jBQAAQBAJ   iBookStore, http://itunes.apple.com/us/book/isbn9781312646940 

Tags:

Books | Embedded System | pcDuino

Getting Started with Intel IoT and Intel Galileo

by Agus Kurniawan 18. October 2014 19:47
The Intel Galileo board is the first in a family of Arduino-certified development and prototyping boards based on Intel architecture. Intel provides Intel IoT Developer Kit which you can build and deploy application on top of Intel Galileo board. Now I released my new book, Getting Started with Intel IoT and Intel Galileo. This book helps you getting started with Intel IoT and Intel Galileo. Table of Content 1. Preparing Development Environment 1.1 Intel Galileo 1.2 Getting Hardware 1.3 Development Tools 1.4 Electronics Devices 1.5 Getting Started 2. Working with Arduino IDE Software 2.1 Intel Galileo and Arduino IDE Software 2.2 Intel Galileo Board 2.3 Connecting Intel Galileo to Computer 2.3.1 Windows Platform 2.3.2 Linux Platform 2.4 Updating Intel Galileo Firmware 2.4 Hello Intel Galileo and Arduino 2.4.1 Hardware Configuration 2.4.2 Building Application 2.4.3 Testing 2.5 Demo: Seven-Segment Display 2.5.1 Getting Started with 7 Segment Display 2.5.2 Deploying Hardware Wiring 2.5.3 Building Application 2.5.4 Testing 2.6 Working with Serial Communication (UART) 2.7 Reading Analog Input 2.7.1 Hardware Configuration 2.7.2 Writing Application 2.7.4 Testing 2.7 Working with Analog Output 2.7.1 RGB LED 2.7.2 Hardware Configuration 2.7.3 Writing Application 2.7.4 Testing 3. Accessing Internal Linux OS 3.1 Getting Started 3.2 Accessing File 4. Connecting to Internet Network 4.1 Getting Started 4.2 Connecting via Wired Ethernet 4.3 Connecting via Wireless Module 4.4 Building Web Server 4.5 Telnet 5. Yocto Embedded Linux-based OS 5.1 Getting Started 5.2 Preparation 5.3 Running 5.4 SSH 5.5 Change Password 5.6 Change Date/Timezone 5.7 Web Server 5.7.1 Adding HTML File 5.8 SFTP 5.9 Development on Yocto Linux 5.9.1 Python 5.9.2 Node.js 5.9.3 C/C++ with GCC 5.10 Reboot and Shutdown 5.11 Updating Software 6. Intel Galileo I/O Programming from Yocto Linux 6.1 Getting Started 6.2 GPIO 6.3 Reading Analog Input 6.4 UART 6.5 SPI 6.6 I2C/TWI 7. Intel Galileo Development using C/C++ 7.1 Getting Started 7.2 GPIO 7.3 Reading Analog Input 7.4 SPI 7.5 I2C/TWI 8. Intel Galileo Development using Node.js 8.1 Getting Started 8.2 GPIO 8.3 Reading Analog Input 8.4 SPI 8.5 I2C/TWI 9. Working with XBee IEEE 802.15.4 9.1 XBee IEEE 802.15.4 9.2 Getting Hardware 9.3 Connecting XBee IEEE 802.15.4 to Intel Galileo 9.4 XBee with AT Command 9.5 Demo Chatting Program 9.5.1 Hardware Configuration 9.5.2 XBee Configuration 9.5.3 Writing Python Program for Intel Galileo 9.5.4 Testing 9.6 XBee with API Mode 9.7 Further Reading   How to Buy You can get this book on the following book stores. Lulu, http://www.lulu.com/shop/agus-kurniawan/getting-started-with-intel-iot-and-intel-galileo/ebook/product-21856915.html  Amazon Kindle, http://www.amazon.com/dp/B00ON174XS  Google Play Books, https://play.google.com/store/books/details?id=c9TaBAAAQBAJ  Kobo Store, http://store.kobobooks.com/en-US/ebook/getting-started-with-intel-iot-and-intel-galileo   iBookStore, http://itunes.apple.com/us/book/isbn9781312609501

Tags:

Books | C/C++ | Embedded System | Node.js | Python

Hello Intel Galileo

by Agus Kurniawan 21. September 2014 16:25
Dua minggu lalu, ketemu teman lama, om Firstman, dan beliau memberikan sebuah board yaitu Intel Galileo. Saya sendiri sudah mengenal board ini semenjak peluncurannya tapi baru kali memegangnya. Disini saya mau sharing bagaimana memulai menggunakan Intel Galileo. Mari kita kupas bersama. Apakah Itu Intel Galileo? Secara umum, Intel Galileo adalah Embedded board yang merupakan gabungan dari Arduino Uno dengan processor Intel Quark SoC X1000. Berikut ini arsitektur umum dari Intel Galileo. (source: http://arduino.cc/en/ArduinoCertified/IntelGalileo) Bagaimana bentuknya? kita akan mendapatkan kotak berwarna biru seperti pada gambar dibawah ini. Kalau kita buka, kita akan mendapatkan board dan power nya. Disini yang kurang adalah kabel Micro USB yang akan digunakan untuk koneksi ke komputer. Kita juga memerlukan SD Card apabila kita ingin melakukan kustomisasi sistem operasinya. Langkah selanjutnya adalah melakukan instalasi driver ke komputer. Disini saya menggunakan Windows 8.1 sebagai ilustrasinya. Sedangkan untuk versi Linux, ditunggu saja update nya di blog ini .   Instalasi Intel Galileo Pada Windows Hal pertama yang dilakukan adalah mengunduh software Intel Galileo. Anda dapat mengunduhnya di https://communities.intel.com/community/makers/drivers . Extract file ini ke folder yang diinginkan, contohnya seperti dibawah ini. Selanjutnya colok board Intel Galileo ke listrik sehingga kita melihat lampu hijau hidup. Kemudian colok kabel Micro USB ke komputer. Secara umum, Intel Galileo boardnya dapat dilihat deskripsinya sebagai berikut.   Kabel Micro USB yang akan dihubungkan ke komputer yaitu dengan mencolok bagian USB Client ke komputer. Setelah dihubungkan, jalankan Device Manager sehingga kita melihat device yang tidak dikenali seperti pada gambar dibawah ini.   Klik kanan pada device ini dan pilih menu Update Driver Software, contoh gambarnya seperti pada gambar dibawah ini.   Kemudian kita akan mendapatkan Arahkan ke folder Install driver Intel Kalau sukses, kita akan melihat device Intel Galileo terinstall pada Device Manager Windows. Sekarang kita siap memprogram dengan board Intel Galileo ini.   Hello Intel Galileo Seperti yang saya katakan sebelumnya bahwa Intel Galileo merupakan gabungan dari Arduino Uno sehingga perangkat lunaknya juga sama. Berikut ini contoh tampilan aplikasi Intel Galileo ketika dijalankan Untuk demo kali ini, kita memerlukan: Breadboard 3 LED 4 kabel untuk mencolok LED ke board dan breadboard Disini LED dihubungkan ke pin 8, 9, 10 pada board Intel Galileo sedangkan pin lainnya ke GND. Berikut skemanya.   Selanjutnya kita membuat program melalui software Intel Galileo. Tulis kode program dibawah ini. int led1 = 8; int led2 = 9; int led3 = 10; void setup() { pinMode(led1, OUTPUT); pinMode(led2, OUTPUT); pinMode(led3, OUTPUT); } void offAll(){ digitalWrite(led1, LOW); digitalWrite(led2, LOW); digitalWrite(led3, LOW); } void loop() { digitalWrite(led1, HIGH); delay(1000); offAll(); delay(100); digitalWrite(led2, HIGH); delay(1000); offAll(); delay(100); digitalWrite(led3, HIGH); delay(1000); offAll(); delay(100); }   Kita pilih board dan port yang digunakan. Klik menu Tools dan pilih Board dan Serial Port sesuai konfigurasi yang digunakan. Langkah selanjutkan lakukan kompilasi dengan mengklik ikon centang dan unggah programnya ke boardnya dengan mengklik ikon panah kanan. Jika sukses, kita akan melihat 3 LED blinking. Demonya dapat dilihat pada video Youtube ini.     Source code ini dapat diunduh disini, https://github.com/agusk/hello-galileo Update Intel Galileo Firmware Kita dapat melakukan update firmware dengan mengklik menu Help->Galileo Firmware Update sehingga kita akan mendapatkan konfirmasi dialog seperti dibawah ini. Klik Yes untuk melakukan update.   Bagaimana Selanjutnya? Lakukan dapatkan Intel Galileo dari berbagai toko elektronik atau meminjam dari teman atau kampus. Kemudian langsung “mainkan”. Saya akan melakukan update beberapa artikel lain yang berhubungan dengan Intel Galileo. Silakan ditunggu.

Tags:

Embedded System | Intel Galileo

Getting Started with Arduino and Python

by Agus Kurniawan 17. February 2014 04:13
Finding the power of Python on Arduino development. I wrote this book to help readers to learn how to develop Arduino application using Python. Exploring several Python libraries to access Arduino. Table of Content 1. Preparing Development Environment 1.1 Arduino 1.1.1 Arduino Uno 1.1.2 Arduino Leonardo 1.1.3 Arduino Mega 2560 1.1.4 Arduino Due 1.2 Electronic Components 1.2.1 Arduino Starter Kit 1.2.2 Fritzing 1.2.3 Cooking-Hacks: Arduino Starter Kit 1.2.4 Arduino Sidekick Basic kit 1.3 Python 1.4 Arduino Software 1.5 Testing 2. Hello World 2.1 Arduino World 2.1.1 Arduino Hardware Driver on Windows 8/8.1 2.1.2 Simple Testing 2.2 Arduino and Python 2.3 Testing Serial Port using Python 2.4 Testing for Arduino and Python 3. Exploring Python Libraries for Arduino 3.1 Python Arduino Prototyping API v2 3.2 Python Firmata 3.3 pyFirmata 4. Analog Sensor 4.1 Sensor Devices 4.2 Reading Sensor 4.3 Running Program 5. RGB LED 5.1 RGB LED 5.1.1 Arduino Analog output (PWM) 5.1.2 Controlling RGB LED Color 5.2 Arduino Implementation 5.3 Python Implementation How to Buy Lulu, http://www.lulu.com/shop/agus-kurniawan/getting-started-with-arduino-and-python/ebook/product-21452119.html  Amazon Kindle, http://www.amazon.com/dp/B00IHJZZJ2  Google Play Book,  https://play.google.com/store/books/details/Agus_Kurniawan_Getting_Started_with_Arduino_and_Py?id=njXcAgAAQBAJ   iBookStore, http://itunes.apple.com/us/book/isbn9781312021174  Kobo, http://store.kobobooks.com/en-US/ebook/getting-started-with-arduino-and-python  Nook, http://www.barnesandnoble.com/w/getting-started-with-arduino-and-python-agus-kurniawan/1118875309 

Tags:

Books | Embedded System | Python

MSP430 LaunchPad Programming

by Agus Kurniawan 27. December 2013 14:37
I finished my new book MSP430 LaunchPad Programming. This book helps you how to get started with MSP430 LaunchPad. I used Energia to write program for MSP430 LaunchPad.   Table of Content 1. Preparing Development Environment 1.1 MSP430 LaunchPad 1.2 Electronic Components 1.2.1 Fritzing 1.2.2 Arduino Sidekick Basic kit 1.2.3 Educational BoosterPack 1.4 Development Tool 1.5 Testing 2. Hello World 2.1 MSP430 LaunchPad Hardware Driver 2.1.1 Windows 8 and 8.1 2.1.2 Linux 2.2 Simple Testing 2.3 Energia Basic Programming Language 3. LED Controller 3.1 Basic LED Programming 3.2 Digital Output 4. Push Your Button 4.1 Getting Data from Button 4.2 Connecting An External Button to MSP430 LaunchPad 5. Serial Communication 5.1 Serial Monitor 5.2 Button and Serial Port 5.2 Reading Data from Serial Port 6. Reading Sensor Devices 6.1 Sensor Devices 6.2 Reading Sensor 7. Analog PWM (Pulse Width Modulation) 7.1 Analog PWM 7.2 Controlling Color on RGB LED 7.3 Writing Program 7.4 Executing Program   How to Buy Amazon Kindle, http://www.amazon.com/dp/B00HJ8485E/  Google Play Books, https://play.google.com/store/books/details?id=2ftzAgAAQBAJ  Kobo, http://store.kobobooks.com/en-US/ebook/msp430-launchpad-programming  Lulu, http://www.lulu.com/shop/agus-kurniawan/msp430-launchpad-programming/ebook/product-21383419.html   iBookStore, http://itunes.apple.com/us/book/isbn9781304746375  Nook, http://www.barnesandnoble.com/w/raspberry-pi-command-line-for-beginner-agus-kurniawan/1118760437

Tags:

Books | Embedded System

Mathematica is free now for Raspberry Pi

by Agus Kurniawan 25. December 2013 17:21
You may know that Wolfram Research gives a free copy of Mathematica for Raspberry Pi users. This package is bundled with Raspbian images. In this article we will explore how to install and get started with Mathematica. How to install? Firstly you must have SD card with at least 600MB of free space. To install Mathematica, you can type this command. sudo apt-get update && sudo apt-get install wolfram-engine In installing process, you must accept a license agreement. After finished, you can open Raspberry Pi desktop and find Mathematica menu on Education section. Run Mathematica application and now you will obtain two dialogs as below.   Getting Started Now you can start to write Mathematica code. Click (+) and choose Free-form input.   Then you can write this script. You also can use ContourPlot3D to plot 3D form.   What’s the Next? If you don’t know about Mathematica programming, I think you should buy some Mathematica books or you find them tutorials on Internet.

Tags:

Embedded System | Mathematica | Raspberry Pi

Getting Started with Matlab Simulink and Arduino

by Agus Kurniawan 17. September 2013 03:50
I just release my new book with title Getting Started with Matlab Simulink and Arduino. This book helps you how to build a simulink model that integrates with Arduino. Table of Content 1. Preparing Development Environment 1.1 Arduino 1.1.1 Arduino Uno 1.1.2 Arduino Leonardo 1.1.3 Arduino Mega 2560 1.1.4 Arduino Due 1.2 Electronic Components 1.2.1 Arduino Starter Kit 1.2.2 Fritzing 1.2.3 Cooking-Hacks: Arduino Starter Kit 1.2.4 Arduino Sidekick Basic kit 1.3 Matlab Simulink 1.4 Arduino Software 1.5 Testing 2. Matlab Simulink and Arduino 2.1 Matlab 2.2 Installing Arduino for Simulink Target 3. Hello World - Matlab Simulink and Arduino 3.1 Hello World 3.2 Creating Arduino Simulink 3.2.1 Configuring Arduino Digital Output 3.2.2 Configuring Pulse Generator 3.2.3 Configuring Scope 3.3 Configuring Arduino 3.3 Running Simulink 4. Simulink with Arduino Digital I/O 4.1 Working with Arduino Digital I/O 4.2 Digital Sources 4.3 Simulink with Arduino Digital I/O 4.3.1 Digital Input 4.3.2 Digital Output 4.3.3 Logical Operator 4.3.4 Pulse Generator 4.3.5 Configuring Hardware 4.4 Testing 5. Simulink with Arduino Analog I/O 5.1 Simulink with Arduino Analog Input 5.1.1 Reading Temperature Analog Sensor 5.1.2 Building Simulink Model 5.1.3 Executing Simulink Model 5.2 Simulink with Arduino Analog Output 5.2.1 Controlling RGB LED Color 5.2.2 Building Simulink Model 5.2.3 Executing Simulink Model 6. Simulink with Arduino Serial 6.1 Arduino Serial Communication 6.2 Configuring Arduino 6.3 Building a Simulink Model 6.3.1 Serial Transmit 6.3.2 Serial Receive 6.3.3 Counter Limited 6.3.4 Data Type Conversion 6.4 Testing 7. Simulink with Arduino and Servo Motor 7.1 Servo Motor 7.2 Building A Simulink Hardware 7.3 Building A Simulink Model with Arduino and Servo Motor 7.3.1 Standard Servo Write 7.3.2 Standard Servo Read 7.3.3 Counter Limited 7.3.4 Serial Transmit 7.4 Testing   How to Buy You can buy this book on the following sites: Lulu, http://www.lulu.com/shop/agus-kurniawan/getting-started-with-matlab-simulink-and-arduino/ebook/product-21207087.html Amazon Kindle http://www.amazon.com/dp/B00F8LQSPM Kobo in progress http://store.kobobooks.com/en-US/ebook/getting-started-with-matlab-simulink-and-arduino iBookstroe in progress https://itunes.apple.com/book/getting-started-matlab-simulink/id722188277?mt=11 NOOK in progress http://www.barnesandnoble.com/w/getting-started-with-matlab-simulink-and-arduino-agus-kurniawan/1117105384  Google Play Books https://play.google.com/store/books/details?id=HGmVAgAAQBAJ

Tags:

Books | Embedded System | MATLAB

Pocket Reference: Netduino for Beginner

by Agus Kurniawan 19. May 2013 21:29
Netduino is an open-source electronics prototyping platform based on the .Net Micro Framework. The Netduino boards are designed to be pin-compatible with most Arduino shields. This book was written to help anyone want to get started with Netduino. It describes the basic elements of the Netduino programming with C# language.   Table of Content Preface 1. Preparing Development Environment 1.1 Netduino 1.2 Electronic Components 1.2.1 Fritzing 1.2.2 Arduino Sidekick Basic kit 1.3 Netduino Software 1.3.1 Installing .NET Micro Framework SDK 1.3.2 Installing Netduino SDK 1.4 Connecting Netduino to Computer 1.5 Testing 1.6 Checking .NET Micro Framework Version Inside Netduino Hardware 2. Hello World 2.1 Netduino World 2.2 Creating Project 2.3 Configuring Project 2.4 Deploying 2.5 Testing for Netduino 2.4 Debugging 2.5 Erasing Program 3. Working with Sensor Devices 3.1 Thermistors and LDR 3.2 Building Circuit Schema 3.3 Reading Sensor 4. LED Controller 4.1 LED Controller Device 4.2 Netduino Implementation 4.3 Deploying and Running 5. Button 5.1 Getting Data from Button 5.2 Netduino Implementation 5.3 Executing Program   How to Buy Lulu http://www.lulu.com/shop/agus-kurniawan/pocket-reference-netduino-for-beginner/ebook/product-21024542.html Kindle Amazon http://www.amazon.com/dp/B00CU8EFPQ Kobo http://www.kobobooks.com/ebook/Pocket-Reference-Netduino-for-Beginner/book-Jbowhe2EVEC9Kw8CdK9zXg/page1.html iBookstore in progress http://itunes.apple.com/us/book/isbn9781304045027  Nook in progress http://www.barnesandnoble.com/w/pocket-reference-agus-kurniawan/1115550408 

Tags:

.NET | Books | Embedded System

Pocket Reference: Basic Sensors in Windows 8

by Agus Kurniawan 21. March 2013 02:43
I just published a new book about basic sensor programming on Windows 8. The following is TOC of the book: 1. Sensor in Windows 8 WinRT 1.1 Windows 8 WinRT Sensor 1.2 Accelerometer 1.3 Compass 1.4 Inclinometer 1.5 Light Sensor 1.6 Gyrometer 1.7 Orientation 1.8 Simple Orientation 1.9 Geolocation 2. Arduino and Windows 8 2.1 Arduino 2.1.1 Arduino Uno 2.1.2 Arduino Leonardo 2.1.3 Arduino Mega 2560 2.1.4 Arduino Due 2.2 Electronic Components 2.2.1 Arduino Starter Kit 2.2.2 Fritzing 2.2.3 Cooking-Hacks: Arduino Starter Kit 2.2.4 Arduino Sidekick Basic kit 2.3 Arduino Software 2.4 Testing 2.5 Connecting Arduino to Windows 8 2.5.1 Arduino Hardware Driver on Windows 8 2.5.2 Simple Testing 2.6 Arduino and .NET 3. Connecting Arduino to Windows 8 WinRT 3.1 Serial Port 3.2 Windows Communication Foundation (WCF) 3.2.1 Creating WCF Application 3.2.2 Consuming WCF on Windows 8 WinRT 3.2.3 Testing 3.2.4 Deplying and Multi-User 3.3 Socket Client-Server 4. Consuming Data from Sensor Devices 4.1 Problem 4.1.1 Sensor Devices 4.1.2 Consuming Sensor Data in Windows 8 WinRT 4.2 Reading Sensor 4.3 Accessing Sensor Data from Console 4.4 Publishing Sensor Data for Windows 8 WinRT 4.4.1 Create WCF Application 4.4.2 Consuming WCF on Windows 8 Store 4.4.3 Testing 5. Controlling Devices 5.1 LED Controller Device 5.2 Arduino Implementation 5.3 Controlling Device from .NET Console 5.4 Publishing Sensor Data for Windows 8 WinRT 5.4.1 Creating WCF Application 5.4.2 Consuming WFC 5.4.3 Testing 6. Button and Switch 6.1 Getting Data from Button and Switch 6.2 Arduino Implementation 6.3 Executing Command to .NET Console 6.4 Publishing Sensor Data for Windows 8 WinRT 6.4.1 Creating Socket Server 6.4.2 Socket Client on Windows 8 Store 6.4.3 Testing   How to buy? Kindle:  http://www.amazon.com/Pocket-Reference-Sensors-Windows-ebook/dp/B00BXHEOWE/ Lulu: http://www.lulu.com/shop/agus-kurniawan/pocket-reference-basic-sensors-in-windows-8/ebook/product-20927425.html   Kobo: http://www.kobobooks.com/ebook/Pocket-Reference-Basic-Sensors-Windows-8/book-SyQ9aWmDCUexynJZW4b-hw/page1.html iBookStore: http://itunes.apple.com/us/book/isbn9781300856610  Nook: http://www.barnesandnoble.com/w/pocket-reference-agus-kurniawan/1115125073

Tags:

.NET | Books | Embedded System | Windows

About Agus Kurniawan

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My Books

Vue.js Programming by Example 

Arduino MKRFOX1200 Development Workshop  Intelligent IoT Projects in 7 Days

Teensy Development Workshop Teensy 3.5 and Teensy 3.6 Boards Edition OpenMV Development Workshop

ESPresso Lite V2.0 Development Workshop  MicroPython for ESP32 Development Workshop

Arduino FIO Development Workshop  Getting Started with Android Things for Raspberry Pi 3

Pycom WiPy 2.0 Development Workshop  XBee ZigBee Development Workshop

SparkFun ESP32 Thing Development Workshop Getting Started With BBC micro:bit

Getting Started With Raspberry Pi Zero W Espruino Pico Development Workshop

Getting Started with ASP.NET Core for OS X, Linux, and Windows  Arduino TIAN Development Workshop

SimpleLink Wi-Fi CC3200 LaunchPad Development Workshop  MicroPython for ESP8266 Development Workshop

Smart Internet of Things Projects  Arduino UNO WiFi Development Workshop

XBee Wi-Fi development workshop SparkFun Simblee BLE Development Workshop

Mengenal Microsoft Azure ML Getting Started with Windows 10 IoT Core for Raspberry Pi 3

Arduino and Genuino Zero Development Workshop Go and SQL Server Programming By Example

Arduino and Genuino MKR1000 Development Workshop  Mengenal Microsoft Azure IoT

Getting Started with Raspberry Pi 3 PHP and PostgreSQL Programming By Example

Arduino and Genuino 101 Development Workshop Getting Started with Raspberry Pi Zero

Getting Started with Arduino Wiring for Windows 10 IoT Core Getting Started with Wolfram Language and Mathematica for Raspberry Pi

Arduino Uno: A Hands-On Guide for Beginner Arduino Leonardo and Arduino Micro: A Hands-On Guide for Beginner

RedBearLab CC3200 Development Workshop The Photon Kit Development Workshop

Python Programming by Example Raspberry Pi LED Blueprints

Bluno Beetle Development Workshop BeagleBone Black Programming using Matlab

Arduino Programming using MATLAB Digispark USB Development Workshop

Near Field Communication (NFC) for Embedded Applications Arduino Development for OSX and iOS

SparkFun ESP8266 Thing Development Workshop Teensy Development Workshop

Getting Started with Windows 10 for Raspberry 2 NodeMCU Development Workshop

Getting Started with ASP.NET 5 for OS X, Linux, and Windows Getting Started with Windows Remote Arduino

Redis Programming by Example The Hands-on ARM mbed Development Lab Manual

Getting Started With STM32 Nucleo Development Getting Started with Windows IoT and Intel Galileo

Learning C by Example Getting Started with Raspberry Pi 2

Getting Started with Arduino and Go The Hands-on Arduino Yún Manual Lab

The Hands-on MEAN Lab Manual, Volume 1 Go Programming by Example

Getting Started with Scratch for pcDuino Raspberry Pi Wireless Networks

BeagleBone Black Programming by Example Database Programming Using R

Learning R in 120 Minutes The Hands-on Intel Edison Manual Lab

Getting Started with pcDuino3 TI ARM Cortex-M LaunchPad Programming by Example

Raspberry Pi I/O Programming using Python Getting Started with Intel IoT and Intel Galileo

Pemrograman Java Tingkat Lanjut PHP and MongoDB Programming By Example

ASP.NET SignalR Programming By Example KnockoutJS Programming by Example

Getting Started with Java ME Embedded 8 and Raspberry Pi XBee IEEE 802.15.4 Programming

Raspberry Pi System Programming for Beginner Backbone.js Programming By Example

PHP and SQL Server Programming By Example AngularJS Programming by Example

jQuery Programming by Example Getting Started with Arduino and Ruby

Raspberry Pi Command Line for Beginner Getting Started with Arduino and Python

MSP430 LaunchPad Programming TypeScript Programming by Example

Getting Started with Matlab Simulink and Arduino SQL Server for Node.js

Pocket Reference: Netduino for Beginner Database Programming using Matlab

Pocket Reference: Basic Sensors in Windows 8 Getting Started with Matlab Simulink and Raspberry Pi

Getting Started with Arduino and Java  Pocket Reference: Raspberry Pi Programming

Getting Started with Arduino and Matlab Getting Started with Arduino and .NET

Pocket Reference: Raspberry Pi Getting Started with Arduino and Node.js

MongoDB for VB.NET Panduan Praktis Windows Azure

Network Forensics: Panduan Analisis Dan Investigasi Paket Data Jaringan Menggunakan Wireshark Object-Relational Mapping (ORM): MongoDB, Mongoosejs and Node.js By Example

Nodejs Programming by Example MongoDB for by Example

Pemrograman Parallel Dengan MPI dan C Panduan Lengkap iPad 2 Untuk Pemula

Pemrograman Jaringan Dengan Java Aplikasi Pilihan iPad Untuk Anak-Anak

Buku lainnya [V]

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