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Computer science is all around us, at school, at home, and in the community. This book gives readers the essential tools they need to understand the computer science concept of algorithms and procedures. Brilliant color photographs and accessible text will engage readers and allow them to connect deeply with the concept. The computer science topic is paired with an age-appropriate curricular topic to deepen readers' learning experience and show how algorithms and procedures work in the real world. In this book, readers learn how to use instructions to build their own drone. This nonfiction book is paired with the fiction book Rae Builds a Robot (ISBN: 9781508137610). The instructional guide on the inside front and back covers provides: Vocabulary, Background knowledge, Text-dependent questions, Whole class activities, and Independent activities.
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.
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
Drones, quadcopters, Uncrewed Aerial Vehicles (UAVs): whatever they're called, remotely-controlled aircraft have changed the way we see the world, the way we manage crops, the way we sell real estate, and the way we make war. This book contains tutorials about how to understand what drones can do, and projects about how to make your own flying craft, from some of the earliest practitioners in the field.
"What impact will drone technology have on the patterns of war and peace in the next century? Will drones produce a more peaceful world because they reduce risk to pilots, or will the prospect of clean, remote warfare lead governments to engage in more conflicts? Will drones begin to replace humans on the battlefield or will they empower soldiers and peacekeepers to act more precisely and humanely in crisis zones? How will terrorist organizations turn this technology back on the governments that fight them? How will drones change surveillance at war - and at home? As drones come into the hands of new actors - foreign governments, law enforcement, terrorist organizations, humanitarian organizations and even UN peacekeepers, it is even more important to understand what kind of world they might produce. This book explores how the unique features of drone technology alter the strategic choices of governments and non-state actors alike by transforming their risk calculations and expanding their goals on and off the battlefield. By changing what these actors are willing and capable of doing, drones are quietly altering the dynamics of wars, humanitarian crises and peacekeeping missions while generating new risks to security and to privacy. An essential guide to a potentially disruptive force in modern world politics, The Drone Age argues that the mastery of drone technology will become central to the ways that governments and non-state actors seek power and influence in the coming decades."--
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.
Computer science is all around us, at school, at home, and in the community. This book gives readers the essential tools they need to understand the computer science concept of algorithms and procedures. Brilliant color photographs and accessible text will engage readers and allow them to connect deeply with the concept. The computer science topic is paired with an age-appropriate curricular topic to deepen readers' learning experience and show how algorithms and procedures work in the real world. In this book, readers learn how to use instructions to build their own drone. This nonfiction book is paired with the fiction book Rae Builds a Robot (ISBN: 9781508137610). The instructional guide on the inside front and back covers provides: Vocabulary, Background knowledge, Text-dependent questions, Whole class activities, and Independent activities.
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!
Build Your Own Drone Manual provides practical advice and step-by-step procedures to enable the reader to build a basic, affordable, DIY drone. Suggested designs for two drones will included - both fixed wing and multiple-rotary wing.
Autonomous unmanned air vehicles (UAVs) are critical to current and future military, civil, and commercial operations. Despite their importance, no previous textbook has accessibly introduced UAVs to students in the engineering, computer, and science disciplines--until now. Small Unmanned Aircraft provides a concise but comprehensive description of the key concepts and technologies underlying the dynamics, control, and guidance of fixed-wing unmanned aircraft, and enables all students with an introductory-level background in controls or robotics to enter this exciting and important area. The authors explore the essential underlying physics and sensors of UAV problems, including low-level autopilot for stability and higher-level autopilot functions of path planning. The textbook leads the student from rigid-body dynamics through aerodynamics, stability augmentation, and state estimation using onboard sensors, to maneuvering through obstacles. To facilitate understanding, the authors have replaced traditional homework assignments with a simulation project using the MATLAB/Simulink environment. Students begin by modeling rigid-body dynamics, then add aerodynamics and sensor models. They develop low-level autopilot code, extended Kalman filters for state estimation, path-following routines, and high-level path-planning algorithms. The final chapter of the book focuses on UAV guidance using machine vision. Designed for advanced undergraduate or graduate students in engineering or the sciences, this book offers a bridge to the aerodynamics and control of UAV flight.