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This book focuses on small flying drones and their applications in conducting geographic surveys. Scholars and professionals will discover the potential of this tool, and hopefully develop a conceptual and methodological framework for doing the following things: a) Translate their data acquisition needs into specifications. (b) Use the developed specifications to choose the best accessible configuration for their drones, and (c) Design and organize effective and low-cost field deployment and flight operations by integrating technical aspects with regulatory and research requirements. Readers can apply this knowledge to work in cartography, environmental monitoring and analysis, land-use studies and landscape archaeology. Particular attention is also given to the reasons why a drone can dramatically boost a geographer’s capability to understand geographic phenomena both from hard-science and humanities-oriented approach.
FPV Flight Dynamics is the in-depth handbook designed to catapult Rookies and Intermediates into the Advanced levels and beyond! Whether you’re new to UAVs, a camera drone operator looking to dive into Acro, or an experienced miniquad ripper stuck in FPV purgatory, this guide will arm you with the skills and knowledge that you’ll need to break through plateaus and master your instrument. This visual manual spans 30 chapters and features over 220 full-color illustrations, including stick schematics, 3D diagrams, photos, and infographics. You’ll be presented with actionable strategies that can be employed immediately to make the greatest leaps in skill level with the least amount of time, money, and frustration possible. Master all three of FPV’s disciplines (racing, freestyle, and professional cinematic) by learning what to practice, how to practice it, and, most importantly, in which order! This book offers detailed analyses on more than 50 unique tricks, maneuvers, and flight techniques, including: 31 FUNDAMENTAL MANEUVERS Static Climbs and Drops, medial and lateral Dynamic Climbs, ascending Half-Loops, Convex Climbs, Pullbacks, Parachutes, Diving Helixes, Two-Dimensional Sweeping Turns (2D Sweeps), S-Turns, 180° Hairpin Turns, 3D Sweeps, Coils, Rippled Turns, Elliptical Orbits, Textbook Power Loops, Parachuting Power Loops, Aerial Corkscrews, Barrel Rolls, Stunted Barrel Rolls, Aileron Rolls, the Textbook Split-S, Vaulting Split-S, and Sliding Split-S, Level Orbits, Knife-Edge Orbits, Immelmann Turns, Half Cuban Eights, High Jumps, and Hammer Throws 19 FREESTYLE TRICKS Frontflips, Backflips, Level Yaw Spins, Snap Rolls, Wallkicks, Kamikazes, Juicy Flicks, Vanny Rolls, Proxy Knockbacks and Slingshots, Rewinds, Wall Rides, Stall-Slide Corkscrews, Rubik’s Cubes, Inverted Yaw Spins, Mattyflips, Trebuchets, Inverted Orbits (aka Cyclones/Trippy Spins), Keeling Turns, and Windmills Learn how to: Manipulate your quadcopter’s speed and momentum with techniques like Sprints, Coasts, Stalls, Short-Rooks and Full-Rooks, Rook-n-Rolls, and Blips Negotiate advanced racing complexes like Chicanes/Slaloms, Gated Corkscrews, and coiled obstacles like Ladders Manage your LiPo batteries, including charging, discharging, and storage strategies Dissect your quadcopter, and understand each of its components, their technical specifications, and how they’re all related and interact with one another Chase mobile subjects like drift cars and downhill skiers with advanced cinematic shot-framing techniques, like Sidewinding Sweeps via the quadcopter’s secondary flight stance, the Outside Stance Prioritize visual references in your field of view, so you always know what to be looking at and when This is THE definitive guide to FPV, and a must-read for all newcomers to the hobby! Pick up a copy today and take your skills to the next level! BECOME THE MACHINE
Small unmanned aircraft are already transforming warfare, with hand-launched scouts like the Raven and lethal tactical drones like Switchblade already in use by US forces. A bigger revolution is on the way, as swarming software allows a single operator to control large numbers of drones, and smartphone technology means they can be built for $1,000 each -- by anybody, not just governments. This book looks at the history of drone warfare, the rise of big drones like the Predator and how they are being eclipsed by smaller unmanned aircraft. And how the future is being shaped by smartphone technology, swarm software, miniaturised munitions and energy-harvesting that allows small drones to fly forever. It also looks at why current air defence cannot stop the swarms, and what drone swarms will mean for the balance of power and future wars. This is the world of Swarm Troopers
From drones the size of a fingertip to drones that can carry soldiers, from single rotorcraft to multi-rotorcraft to propeller craft drones, from remote-controlled drones to drones that fly autonomously, Drones features 43 of these complex and very different unmanned vehicles.
A mistake by Danny leads to one of the Professor';s most startling inventions—ISIT, the Invisibility Simulator with Intromittent Transmission—a dragonfly-like probe which could be piloted with a telepresence helmet and gauntlet gloves. They all get to try it out. Irene uses it for bird watching. Joe investigates a bee hive. And Danny discovers a bully plans to cheat in a spelling bee. But none of them realizes the ISIT has military possibilities—until a general tries to sieze it!
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.
"Drones: The Complete Collection contains incredible relevant information thta any prospective UAV/Drone Pilot requires in order to go from beginner to Master UAV Pilot. The 3 books contained within this collection work in unison through direct information and simple to follow how-to guides that cover all aspects of UAV aviation."--Back cover
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.
What does it mean for human beings to exist in an era of dronified state violence? How can we understand the rise of robotic systems of power and domination? Focusing on U.S. drone warfare and its broader implications as no other book has to date, Predator Empire argues that we are witnessing a transition from a labor-intensive “American empire” to a machine-intensive “Predator Empire.” Moving from the Vietnam War to the War on Terror and beyond, Ian G. R. Shaw reveals how changes in military strategy, domestic policing, and state surveillance have come together to enclose our planet in a robotic system of control. The rise of drones presents a series of “existential crises,” he suggests, that are reengineering not only spaces of violence but also the character of the modern state. Positioning drone warfare as part of a much longer project to watch and enclose the human species, he shows that for decades—centuries even—human existence has slowly but surely been brought within the artificial worlds of “technological civilization.” Instead of incarcerating us in prisons or colonizing territory directly, the Predator Empire locks us inside a worldwide system of electromagnetic enclosure—in which democratic ideals give way to a system of totalitarian control, a machinic “rule by Nobody.” As accessibly written as it is theoretically ambitious, Predator Empire provides up-to-date information about U.S. drone warfare, as well as an in-depth history of the rise of drones.
Explore a complex mechanical system where electronics and mechanical engineers work together as a cross-functional team. Using a working example, this book is a practical “how to” guide to designing a drone system. As system design becomes more and more complicated, systematic, and organized, there is an increasingly large gap in how system design happens in the industry versus what is taught in academia. While the system design basics and fundamentals mostly remain the same, the process, flow, considerations, and tools applied in industry are far different than that in academia. Designing Drone Systems takes you through the entire flow from system conception to design to production, bridging the knowledge gap between academia and the industry as you build your own drone systems. What You’ll LearnGain a high level understanding of drone systems Design a drone systems and elaborating the various aspects and considerations of design Review the principles of the industrial system design process/flow, and the guidelines for drone systems Look at the challenges, limitations, best practices, and patterns of system design Who This Book Is For Primarily for beginning or aspiring system design experts, recent graduates, and system design engineers. Teachers, trainers, and system design mentors can also benefit from this content.