Make: Drones


Book Description

Make: Drones will help the widest possible audience understand how drones work by providing several DIY drone projects based on the world's most popular robot controller--the Arduino. The information imparted in this book will show Makers how to build better drones and be better drone pilots, and incidentally it will have applications in almost any robotics project. Why Arduino? Makers know Arduinos and their accessories, they are widely available and inexpensive, and there is strong community support. Open source flight-control code is available for Arduino, and flying is the hook that makes it exciting, even magical, for so many people. Arduino is not only a powerful board in its own right, but it's used as the controller of most inexpensive 3d printers, many desktop CNCs, and the majority of open source drone platforms.




Paper Drone


Book Description

Make and fly your own paper drone! Put together and fly drones, the driving force of the future's quaternary sector, while enjoying learning the principles of flight and science together with Aeronautical Engineering Professor Lee Hee-woo! With this book, you can build drones with outstanding flight, a long construction time and strong wind resistance, and rotor drones with three or more motors and propellers. It is designed so you can pop out and make the model that you want, while learning about each model in detail. Fly your cool paper drones, learn to love science more, and grow your dreams.




Building Your Own Drones


Book Description

Absolutely no experience needed! Build your drone, step-by-step, with this full-color, hands-on guide! You’ve heard about drones. You’ve seen drones. Now, build your own—it’s a lot easier than you think! Drones are the newest frontier for the DIY/maker community, and you don’t need to be a technical expert to build one. John Baichtal, the #1 author of hardware hacking books for beginners, will teach you all the skills you need. First, Baichtal shows you the amazing drones others have built. Then, he walks you through several complete projects: quadcopters, UAVs, ROVs, and more. Not ready to start from scratch? No problem: Baichtal helps you choose from today’s best new kits. Hundreds of full-color step-by-step photos teach you every step, every skill. When you’re ready for more advanced concepts, Baichtal explains them in plain English. Discover what drones are and why they’re so exciting Explore today’s most imaginative projects, from 3D-printed mini quadcopters to floating robot armies Compare kits, from $200 up: Parallax ELEV-8, DJI Phantom 2 Vision+, OpenROV, Actobotics Nomad, Brooklyn Aerodrome Flack, and more Create your own practical Drone Builder’s Workbench Build complete rocket, blimp, waterborne, and automotive drones Construct both fully autonomous and radio-controlled drones Choose and assemble your chassis (airframe), motor, props, flight control, power system, accessories, and software Integrate Arduino to make radio-controlled drones operate autonomously Teach a drone to navigate via RFID tags Learn all the basic electronics and programming you’ll need




Build a Drone


Book Description

Within the last couple of years, the usage of drones in both the public and private (military) sector has exploded. People are talking about drones, building drones, and something most people didn’t know of a few years ago is now a household name. Build a Drone will not only teach you how to build your very own drone, but will explain their history in the military and the impact they will have—and are starting to have—on our everyday lives. Author Barry Davies has built drones for DARPA (Defense Advanced Research Projects Agency) and AAI (one of America’s largest drone manufacturers), as well as six experimental ones for MIT. He not only understands their use in the world, but knows the ins-and-outs of how they can be created and handled. Explained in simple terms with full-color step-by-step directions, Davies will explain how to build your very own drone from ones created specifically for this book. Whether you plan on using drones for recreation or a more serious purpose (from search and rescue through farming to scanning construction work on a high-rise apartment buildings), Build a Drone will make sure that you not only understand how to construct a drone, but the proper and safe ways to maintain and handle them.




Getting Started with Drones


Book Description

Want to make something that can fly? How about a flying robot? In this book, you'll learn how drones work, how to solve some of the engineering challenges a drone presents, and how to build your own--an autonomous quadcopter that you can build, customize, and fly. Your drone will be your eyes in the sky and in places where a human could never get to-much less fit!




Drones in Education


Book Description

This book was written for educators who want to incorporate drones into their curriculum but have no idea where to start. It covers all you need to implement a drone program in your school, including recommendations as to the drones that are best for specific students' age levels and subject areas, and which drones need to be registered and where you can fly them. It provides.lesson plans, real-world applications, and tips on securing funding for drones.




Building Smart Drones with ESP8266 and Arduino


Book Description

Leverage the WiFi chip to build exciting Quadcopters Key Features Learn to create a fully functional Drone with Arduino and ESP8266 and their modified versions of hardware. Enhance your drone's functionalities by implementing smart features. A project-based guide that will get you developing next-level drones to help you monitor a particular area with mobile-like devices. Book Description 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. What you will learn Includes a number of projects that utilize different ESP8266 and Arduino capabilities, while interfacing with external hardware Covers electrical engineering and programming concepts, interfacing with the World through analog and digital sensors, communicating with a computer and other devices, and internet connectivity Control and fly your quadcopter, taking into account weather conditions Build a drone that can follow the user wherever he/she goes Build a mission-control drone and learn how to use it effectively Maintain your vehicle as much as possible and repair it whenever required Who this book is for If you are a programmer or a DIY enthusiast and keen to create a fully functional drone with Arduino and ESP8266, then this book is for you. Basic skills in electronics and programming would be beneficial. This book is not for the beginners as it includes lots of ideas not detailed how you can do that. If you are a beginner, then you might get lost here. The prerequisites of the book include a good knowledge of Arduino, electronics, programming in C or C++ and lots of interest in creating things out of nothing.




Designing Purpose-Built Drones for Ardupilot Pixhawk 2.1


Book Description

Design and build land, air, and sea drones using Ardupilot with Pixhawk 2.1 About This Book Explore the best practices used by the top industry professionals that will not only help you build drones in time, but also build effective solutions to cater to. Navigate through the complexities of Ardupilot to put together a complete functional UAV and assemble your drone Learn through practical examples that help you build robust UAV flight and ground control components Who This Book Is For The primary audience for this book is anyone (enthusiasts and hobbyists) who dream of building their own drones. It will also help those who are trying to build UAVs for commercial purposes. Some prior experience with microcontrollers and electronics would be useful. What You Will Learn Kitbash "dumb" objects into smart ones Program Pixhawk for your drones Fabricate your own parts out of different materials Integrate Pixhawk into different types of drones Build and understand the significant difference between land, sea, and air drones Adapt old Pixhawk sensors to the new Pixhawk 2.1 plugs Become familiar with procedures for testing your new drones In Detail The Ardupilot platform is an application ecosystem that encompasses various OS projects for drone programming, flight control, and advanced functionalities.The Ardupilot platform supports many Comms and APIs, such as DroneKit, ROS, and MAVLink. It unites OS drone projects to provide a common codebase. With the help of this book, you will have the satisfaction of building a drone from scratch and exploring its many recreational uses (aerial photography, playing, aerial surveillance, and so on). This book helps individuals and communities build powerful UAVs for both personal and commercial purposes. You will learn to unleash the Ardupilot technology for building, monitoring, and controlling your drones.This is a step-by-step guide covering practical examples and instructions for assembling a drone, building ground control unit using microcontrollers, QgroundControl, and MissionPlanner. You can further build robotic applications on your drone utilizing critical software libraries and tools from the ROS framework. With the help of DroneKit and MAVLink (for reliable communication), you can customize applications via cloud and mobile to interact with your UAV. Style and approach Step-by-step instructions to help assemble your first drone with the Ardupilot platform.




Drones and Global Order


Book Description

This book explores the implications of drone warfare for the legitimacy of global order. The literature on drone warfare has evolved from studying the proliferation of drones, to measuring their effectiveness, to exploring their legal, moral, and ethical impacts. These "three waves" of scholarship do not, however, address the implications of drone warfare for global order. This book fills the gap by contributing to a "fourth wave" of literature concerned with the trade-offs imposed by drone warfare for global order. The book draws on the "English School" of International Relations Theory, which is premised on the existence of a society of states bounded by common norms, values, and institutions, to argue that drone warfare imposes contradictions on the structural and normative pillars of global order. These consist of the structure of international society and diffusion of military capabilities, as well as the sovereign equality of states and laws of armed conflict. The book presents a typology of contradictions imposed by drone warfare within and across these axes that threaten the legitimacy of global order. This framework also suggests a confounding consequence of drone warfare that scholars have not hitherto explored rigorously: drone warfare can sometimes strengthen global order. The volume concludes by proposing a research agenda to reconcile the complex and often counter-intuitive impacts of drone warfare for global order. This book will be of considerable interest to students of security studies, global governance, and International Relations.




Domesticating Drones


Book Description

The public debate over civilian use of drones is intensifying. Variously called "unmanned aircraft systems", "unmanned aerial vehicles", "remotely piloted aircraft", or simply "drones", they are available for purchase by anyone for a few hundred to a few thousand dollars. They have strikingly useful capabilities. They can carry high-definition video cameras, infrared imaging equipment, sensors for aerial surveying and mapping. They can stream their video in real time. They have GPS, inertial guidance, magnetic compasses, altimeters, and sonic ground sensors that permit them to fly a preprogrammed flightplan, take off and land autonomously, hover and orbit autonomously with the flick of a switch on the DRone Operator’s ("DROPs") console. The benefits they can confer on law enforcement, journalism, land-use planning, real estate sales, critical infrastructure protection and environmental preservation activities are obvious. However, their proliferation in response to these demands will present substantial risks to aviation safety. How to ensure the safety of drone operations perplexes aviation regulators around the world. They are inexpensive consumer products, unsuited for traditional requirements for manned aircraft costing hundreds of thousands or millions of dollars and flown only by licensed pilots who have dedicated significant parts of their lives and their wealth to obtaining licenses. Regulatory agencies in Europe and Asia are ahead of US regulators in creating spaces for commercial use. Over the next several years, legal requirements must be crystallized, existing operators of helicopter and airplanes must refine their policy positions and their business plans to take the new technologies into account, and all businesses from the smallest entrepreneur to large conglomerates must decide whether and how to use them. Domesticating Drones offers rigorous engineering, economics, legal and policy theory and doctrine on this important and far-reaching development within aviation.