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Building Smart Drones with ESP8266 and Arduino

By : Omar Faruk Towaha

4.1 (8)

Buy this Book

Building Smart Drones with ESP8266 and Arduino

4.1 (8)

By: Omar Faruk Towaha

Buy this Book

Overview of this book

With the use of drones, DIY projects have taken off. Programmers are rapidly moving from traditional application programming to developing exciting multi-utility projects. This book will teach you to build industry-level drones with Arduino and ESP8266 and their modified versions of hardware. With this book, you will explore techniques for leveraging the tiny WiFi chip to enhance your drone and control it over a mobile phone. This book will start with teaching you how to solve problems while building your own WiFi controlled Arduino based drone. You will also learn how to build a Quadcopter and a mission critical drone. Moving on you will learn how to build a prototype drone that will be given a mission to complete which it will do it itself. You will also learn to build various exciting projects such as gliding and racing drones. By the end of this book you will learn how to maintain and troubleshoot your drone. By the end of this book, you will have learned to build drones using ESP8266 and Arduino and leverage their functionalities to the fullest.

Preface

Who this book is for

What this book covers

To get the most out of this book

Get in touch

Disclaimer

Free Chapter

Things to Know Before You Build a Drone

Drone

Types of motors used for drones

Radio transmitter and receiver

Battery

Battery adapters/chargers

Connectors

Some modules to make the drone smarter

Summary

Assembling Your Drone

Assembling the frame

Connecting the RC receiver and transmitter

Connecting the battery

Binding transmitter to the receiver

Know the aerodynamics needed for flying a drone

Saving your drone from crashing

Check things before flying

Check the security protocols for flying a drone outside

Summary

Preparing Your Drone for Flying

What is ESP8266?

Downloading and installing APM Planner or Mission Planner

Configuring the quadcopter

Summary

Building a Follow Me Drone

What is a Follow Me drone?

Using a smartphone to enable the Follow Me feature of ArduPilot

Building an Arduino-based Follow Me drone

GPS Tracker using ESP8266

Summary

Building a Mission Control Drone

Surveying with a drone

Using drones and delivery man

Some other tweaks with the Flight Plan screen

Summary

Building a Drone to Take Selfies and Record Videos

Photography drones

Requirements

Assembling the photography drone

Controlling the camera

Flying and taking shots

Controlling the camera gimbal using ESP8266

Summary

Building Prototype Drones – Gliding Drones

What is a glider?

How a glider glides

Let's build our own glider drone

Summary

Building Prototype Drones – Racing Drones

Racing drones

Avoiding obstacles using ESP8266

Summary

Maintaining and Troubleshooting Your Drone

Safety of the drone

Be careful about the battery

Storage of the drone

Carrying a drone

Before and after flight safety

Respect the law and privacy

Troubleshooting your drone

Diagnosing problems using logs

Radio control calibration problem

Summary

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How a glider glides

We know about gravity, the downward attraction force for bodies that have mass. We have learned about lift, thrust, and drag. Basically, these four types of aerodynamic forces are what fly a glider drone. In a short definition, the gravity is an upward force, the thrust is the forward force, the drag is the backward force, and the lift is an upward force.

To fly the glider, the thrust must be greater than the drag and the lift must be greater than the gravity. The easiest option is to cancel the opposite forces.

The take-off and climbs must take place to fly the glider.

All the forces should be balanced, otherwise the glider will fall apart. The wing can generate lift, as we have studied before. The air approaches the wing and then splits at the leading edge of the wing and meets again at the trailing edge; therefore, the air must go faster over the top of...