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Raspberry Pi Embedded Projects Hotshot

Raspberry Pi Embedded Projects Hotshot

By : Sai Yamanoor, Srihari Yamanoor
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Raspberry Pi Embedded Projects Hotshot

Raspberry Pi Embedded Projects Hotshot

By: Sai Yamanoor, Srihari Yamanoor

Overview of this book

This book is targeted towards beginners and intermediate designers of mechatronic systems and embedded system design. Some familiarity with the Raspberry Pi and Python programming is preferred but not required.
Table of Contents (15 chapters)
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Preface
Preface
What this book covers
What you need for this book
Who this book is for
Conventions
Mission briefing
Task 1
Reader feedback
Customer support
Free Chapter
1
1. Hello World
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1. Hello World
A quick introduction to the Raspberry Pi
Where can I buy a Raspberry Pi?
Mission briefing
Hunting and gathering
Setting up the GPIO
GPIO programming using Python
Electrical output of our program
Mission accomplished
Hotshot challenge
2
2. A Raspberry WebIDE Example
2. A Raspberry WebIDE Example
Mission briefing
Installation, features, and usage of the Occidentalis operating system from Adafruit
Setup of a remote login into the Raspberry Pi
Installation of the Raspberry Pi WebIDE
Python development on the WebIDE
Test and debugging examples using the WebIDE
Mission accomplished
Hotshot challenge
3
3. The Arduino Raspberry Pi Interface
3. The Arduino Raspberry Pi Interface
Mission briefing
Installing the Arduino IDE
Programming the Arduino using the Raspberry Pi
Raspberry Pi AlaMode
The Weasley weather clock
Controlling the stepper using the Arduino
Controlling the RGB LED Strip using the Arduino
I2C Communication using the Arduino (optional)
Serial port communication with the Raspberry Pi
Mission accomplished
Hotshot challenge
4
4. Christmas Light Sequencer
4. Christmas Light Sequencer
Mission briefing
Interface the devices to the Raspberry Pi
Setting up the digitally addressable RGB matrix
Interface of an audio device
Installing the web server
Interfacing the web server
Mission accomplished
5
5. Internet of Things Example – An E-mail Alert Water Fountain
5. Internet of Things Example – An E-mail Alert Water Fountain
Mission briefing
Installation of the Flask framework
Controlling RGB LEDs from a web page
Setup of the e-mail alerts in the fountain
Mission accomplished
Hotshot challenge
6
6. Raspberry Pi as a Personal Assistant
6. Raspberry Pi as a Personal Assistant
Mission briefing
Setting up the e-mail feed parser
Setting up the parser for reminders and events
Designing an enclosure design for the personal assistant
Setting up the assembly for the dish monitor
Setting up sensors for the key alert system
Mission accomplished
Hotshot challenges
References
7
7. Raspberry Pi-based Line Following Robot
7. Raspberry Pi-based Line Following Robot
Mission briefing
Assembly of the Pi Plate for the line following robot
Sensor selection, interface, and data interpretation
Implementation of line following logic based on sensor data
Testing the motor driver circuit
Preparation of the line following course
Designing the chassis for the line following robot
A step-by-step assembly of the robot
Mission accomplished
Hotshot challenge
8
8. Connect Four Desktop Game using Raspberry Pi
8. Connect Four Desktop Game using Raspberry Pi
Mission briefing
Hello world example with the pygame
Getting started with the Connect Four game (UI and sound effects)
Interfacing game inputs using the PiFace module
A brief description of the Connect Four Game AI
Marquee design and control (optional)
Setup of the switches using a cardboard box
Mission accomplished
Hotshot challenge
9
9. The Raspberry Pi-enabled Pet/Wildlife Monitor
9. The Raspberry Pi-enabled Pet/Wildlife Monitor
Mission briefing
Installing and testing the python-twisted framework
Setting up and testing Spark Core to interact with appliances
Installing and testing the Google Coder project on the Raspberry Pi
A brief overview of a bird feeder that triggers a camera
Mission accomplished
Hotshot challenge
10
10. Raspberry Pi Personal Health Monitor
10. Raspberry Pi Personal Health Monitor
Mission briefing
Setting up a web server to record health parameters
A simple exercise tool using the Raspberry Pi
Setting up an e-mail feed parser to refill a prescription as well as remind the user about an upcoming doctor's appointment
A simple tool that reminds a person to take his/her pills
Mission accomplished
Hotshot challenge
11
11. Home Automation using Raspberry Pi
11. Home Automation using Raspberry Pi
Mission briefing
A simple example that controls limited indoor and outdoor lighting in the evening
A customary web server example
Turning on a lawn sprinkler only when there is no rain forecast!
Mission accomplished
12
12. Using a Raspberry Pi for Science and Education
12. Using a Raspberry Pi for Science and Education
Mission briefing
Improving your vocabulary using the Raspberry Pi
Raspberry Pi and Khan Academy
Building a science fair exhibit using the Raspberry Pi
Hotshot challenge
13
13. Tips and Tricks
13. Tips and Tricks
Mission briefing
Setting up Raspberry Pi as a development platform
Remotely logging in the Raspberry Pi from anywhere on the Internet
Problems that might be encountered while using Raspberry Pi
Cool add-on hardware sources developed for the Raspberry Pi platform
Project ideas that can be implemented over a weekend
Useful resources for the Raspberry Pi
Mission accomplished
14
Index
Index

Electrical output of our program

In the previous section, we wrote a program to make an LED blink. Let's look at the electrical connection to observe the output of our program. We will connect a resistor between the GPIO pin and the anode of the LED. We will connect the cathode to the ground pin of the Raspberry Pi.

Engage thrusters

We will connect the LED and the resistor to the GPIO pin and the ground pin, as shown in this image:

Engage thrusters

LED blinking circuit

Note

If we are not careful with the handling of the Raspberry Pi GPIO pins, it may either temporarily reset the Raspberry Pi or sometimes even permanently damage the GPIO pin. There are several tutorials in basic electronics available over the Web. It is important that you familiarize yourself with the basics of electronics.

Once we connect the circuit as shown in the preceding image, we will be able to execute the program and conclude our experiment.

We can execute the program by running the module, as shown in the following screenshot:

Engage thrusters

Executing the Python example

Objective complete – mini debriefing

That's it! We have wet our feet by saying Hello World by blinking an LED! On our way to bigger and better things, let's stop and examine the Pi Crust for a moment.

Introduction to the Pi Crust – a prototyping platform for the Raspberry Pi

Now that our Hello World example is done, we will leave you with one more thing. Throughout this book, we will review some add-on hardware to access the GPIO peripherals on the Raspberry Pi. In this project, we will discuss the Pi Crust board for the Raspberry Pi.

The Pi Crust board was designed by Joe Walnes. It is a board that is stackable on the Raspberry Pi and eliminates the need for a breadboard to prototype circuits.

Introduction to the Pi Crust – a prototyping platform for the Raspberry Pi

A Pi Crust board

The Pi Crust is an open source add-on hardware and costs approximately $14 to build one ourselves. The design can be downloaded free of cost from http://picru.st.

So, it is up to you to decide whether you want to simply buy one, build one, or as we are prone to encourage, improve upon it and open source it for others to benefit!

The main advantage behind Pi Crust is that it is aids prototyping. It allows easy access to the I2C interface, SPI interface, UART port, and the GPIO pins. The following figure shows BlinkM—an I2C-driven RGB LED mounted on top of the Pi Crust.

Introduction to the Pi Crust – a prototyping platform for the Raspberry Pi

Pi Crust stacked on top of the Raspberry Pi

End of Section 8
Next Section
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