Getting Started with Python for the Internet of Things

Book Image

Getting Started with Python for the Internet of Things

By : Tim Cox, Steven Lawrence Fernandes, Sai Yamanoor, Srihari Yamanoor, Prof. Diwakar Vaish

Book Image

Getting Started with Python for the Internet of Things

By: Tim Cox, Steven Lawrence Fernandes, Sai Yamanoor, Srihari Yamanoor, Prof. Diwakar Vaish

Overview of this book

This Learning Path takes you on a journey in the world of robotics and teaches you all that you can achieve with Raspberry Pi and Python. It teaches you to harness the power of Python with the Raspberry Pi 3 and the Raspberry Pi zero to build superlative automation systems that can transform your business. You will learn to create text classifiers, predict sentiment in words, and develop applications with the Tkinter library. Things will get more interesting when you build a human face detection and recognition system and a home automation system in Python, where different appliances are controlled using the Raspberry Pi. With such diverse robotics projects, you'll grasp the basics of robotics and its functions, and understand the integration of robotics with the IoT environment. By the end of this Learning Path, you will have covered everything from configuring a robotic controller, to creating a self-driven robotic vehicle using Python. • Raspberry Pi 3 Cookbook for Python Programmers - Third Edition by Tim Cox, Dr. Steven Lawrence Fernandes • Python Programming with Raspberry Pi by Sai Yamanoor, Srihari Yamanoor • Python Robotics Projects by Prof. Diwakar Vaish

Title Page

Copyright and Credits

Copyright and Credits

About Packt

Contributors

Preface

Free Chapter

Getting Started with a Raspberry Pi 3 Computer

Getting Started with a Raspberry Pi 3 Computer

Connecting to Raspberry Pi

Using NOOBS to set up your Raspberry Pi SD card

Networking and connecting your Raspberry Pi to the internet via an Ethernet port, using a CAT6 Ethernet cable

Using built-in Wi-Fi and Bluetooth on Raspberry Pi

Configuring your network manually

Networking directly to a laptop or computer

Networking and connecting your Raspberry Pi to the internet via a USB Wi-Fi dongle

Connecting to the internet through a proxy server

Connecting remotely to Raspberry Pi over the network using VNC

Connecting remotely to Raspberry Pi over the network using SSH (and X11 forwarding)

Sharing the home folder of Raspberry Pi with SMB

Keeping Raspberry Pi up to date

Dividing Text Data and Building Text Classifiers

Dividing Text Data and Building Text Classifiers

Building a text classifier

Pre-processing data using tokenization

Stemming text data

Dividing text using chunking

Building a bag-of-words model

Applications of text classifiers

Using Python for Automation and Productivity

Using Python for Automation and Productivity

Using Tkinter to create graphical user interfaces

Creating a graphical application – Start menu

Displaying photo information in an application

Organizing your photos automatically

Predicting Sentiments in Words

Predicting Sentiments in Words

Building a Naive Bayes classifier

Logistic regression classifier

Splitting the dataset for training and testing

Evaluating the accuracy using cross-validation

Analyzing the sentiment of a sentence

Identifying patterns in text using topic modeling

Applications of sentiment analysis

Detecting Edges and Contours in Images

Detecting Edges and Contours in Images

Loading, displaying, and saving images

Erosion and dilation

Image segmentation

Blurring and sharpening images

Detecting edges in images

Histogram equalization

Detecting corners in images

Building Face Detector and Face Recognition Applications

Building Face Detector and Face Recognition Applications

Building a face detector application

Building a face recognition application

Applications of a face recognition system

Using Python to Drive Hardware

Using Python to Drive Hardware

Controlling an LED

Responding to a button

A controlled shutdown button

The GPIO keypad input

Multiplexed color LEDs

Writing messages using persistence of vision

Sensing and Displaying Real-World Data

Sensing and Displaying Real-World Data

Using devices with the I2C bus

Reading analog data using an analog-to-digital converter

Logging and plotting data

Extending the Raspberry Pi GPIO with an I/O expander

Capturing data in an SQLite database

Viewing data from your own webserver

Sensing and sending data to online services

Building Neural Network Modules for Optical Character Recognition

Building Neural Network Modules for Optical Character Recognition

Visualizing optical characters

Building an optical character recognizer using neural networks

Applications of an OCR system

Arithmetic Operations, Loops, and Blinky Lights

Arithmetic Operations, Loops, and Blinky Lights

Hardware required for this chapter

Arithmetic operations

Bitwise operators in Python

Logical operators

Data types and variables in Python

Reading inputs from the user

Loops in Python

Raspberry Pi's GPIO

Conditional Statements, Functions, and Lists

Conditional Statements, Functions, and Lists

Conditional statements

Functions in Python

Some mini-project challenges for the reader

Communication Interfaces

Communication Interfaces

UART – serial port

The SPI interface

Data Types and Object-Oriented Programming in Python

Data Types and Object-Oriented Programming in Python

Speaker controller

File I/O and Python Utilities

File I/O and Python Utilities

Python utilities

Requests and Web Frameworks

Requests and Web Frameworks

The try/except keywords

Connecting to the Internet – web requests

Flask web framework

Awesome Things You Could Develop Using Python

Awesome Things You Could Develop Using Python

Image processing using a Raspberry Pi Zero

Speech recognition

Automating routing tasks

Improving daily commute

Improving your vocabulary

Threading in Python

PEP8 style guide for Python

Robotics 101

The hardware arsenal

Setting up Raspberry Pi

Playing with voltage

Using GPIOs as Input

Using GPIOs as Input

A deeper dive into GPIOs

Interfacing through I2C

Making a Gardener Robot

Making a Gardener Robot

Working with solenoids

Making the robot

Basics of Motors

Basics of Motors

Getting it rolling

Changing the speed

Bluetooth-Controlled Robotic Car

Bluetooth-Controlled Robotic Car

Basics of the vehicle

Getting the vehicle ready

Controlling the vehicle by Bluetooth

Sensor Interface for Obstacle Avoidance

Sensor Interface for Obstacle Avoidance

Infrared proximity sensor

Autonomous emergency braking

Giving the car self-steering capabilities

Making it fully autonomous

Making Your Own Area Scanner

Making Your Own Area Scanner

LIDAR on an autonomous vehicle

Basic Switching

Basic Switching

Making Jarvis wake you up

Recognizing Humans with Jarvis

Recognizing Humans with Jarvis

Turn on the light Jarvis

Understanding motion

Perfecting motion

Making Jarvis IoT Enabled

Making Jarvis IoT Enabled

The MQTT protocol

Setting up the MQTT broker

Making an IoT-based intrusion detector

Controlling the home

Giving Voice to Jarvis

Giving Voice to Jarvis

Basic installation

Automatic delivery answering machine

Making an interactive door – answering robot

Making Jarvis understand our voice

Gesture Recognition

Gesture Recognition

Electric field sensing

Using the Flick HAT

Gesture recognition-based automation

Machine Learning

Machine Learning

Making a dataset

Predicting using a dataset

Making your home learn

Home learning and automation

Making a Robotic Arm

Making a Robotic Arm

Basics of a robotic arm

Degrees of freedom

Finding the limits

Making the robot safe

Programming multiple frames

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Using devices with the I2C bus

Raspberry Pi can support several higher-level protocols that a wide range of devices can easily be connected to. In this chapter, we shall focus on the most common bus, called I-squared-C (I²C). It provides a medium-speed bus for communicating with devices over two wires. In this section, we shall use I²C to interface with an 8-bit ADC. This device will measure an analog signal, convert it to a relative value between 0 and 255, and send the value as a digital signal (represented by 8-bits) over the I²C bus to the Raspberry Pi.

The advantages of I²C can be summarized as follows:

Maintains a low pin/signal count, even with numerous devices on the bus
Adapts to the needs of different slave devices
Readily supports multiple masters
Incorporates ACK/NACK functionality for improved error handling

Getting ready

The I²C bus is not enabled in all Raspberry Pi images; therefore, we need to enable the module and install some supporting tools. Newer versions of Raspbian use device...