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Personal robots are about as advanced today as personal computers were on the eve of the first IBM PC in the early 1980s. They are still the domain of hobbyists who cobble them together from scratch or from kits, join local clubs to swap code and stage contests, and whose labor of love is setting the stage for a technological revolution. This book will deconstruct the 30 regional winning robot designs from the FIRST Robotics Competition in 2006. The FIRST Robotics Competition (held annually and co-founded by Dean Kamen and Woodie Flowers) is a multinational competition that teams professionals and young people to solve an engineering design problem in an intense and competitive way. In 2005 the competition reached close to 25,000 people on close to 1,000 teams in 30 competitions. Teams came from Brazil, Canada, Ecuador, Israel, Mexico, the U.K., and almost every U.S. state. The competitions are high-tech spectator sporting events that have gained a loyal following because of the high caliber work featured. Each team is paired with a mentor from such companies as Apple, Motorola, or NASA (NASA has sponsored 200 teams in 8 years). This book looks at 30 different robot designs all based on the same chassis, and provides in-depth information on the inspiration and the technology that went into building each of them. Each robot is featured in 6-8 pages providing readers with a solid understanding of how the robot was conceived and built. There are sketches, interim drawings, and process shots for each robot.
Similar to the information revolution that created instant access to data as a result of advancements in computers and digital communication, society is approaching a parallel development in the physical world: the arrival of the modern industrial revolution. The barriers to conceiving, producing, and controlling physical objects have been significantly reduced due to advancements in design software and manufacturing equipment. Traditionally these capabilities have been restricted to academic and industry research labs, but recent technology developments have extended these abilities to a much larger population. An increased interest in rapidly creating physical objects has resulted from developments in three key technologies: design software, manufacturing equipment, and integrated control systems. Intuitive computer-aided design (CAD) software programs enable users to quickly master the basic functions needed to design sophisticated mechanical systems. Once designed, physical devices can be manufactured with a variety of traditional and modern machines including three-dimensional (3D) printers, laser and plasma cutters, and computer controlled mills, lathes, and routers. Sensors that measure nearly any physical parameter can be easily integrated with microprocessor-based systems to monitor and control machine functions. Advancing from a sketch to a functioning object is a process in which more and more people, from a variety of backgrounds, are now participating. This book explores the technologies associated with modern and traditional methods for design, manufacturing, and control of robotic systems. Case studies illustrate methodologies that have been applied to design, manufacture, and control robotic systems designed for the 2015 FIRST® Robotics Competition (FRC®), the world's largest team-based program to interest high school students in pursuing careers in science, engineering, and technology. FIRST (For Inspiration and Recognition of Science and Technology) was founded in 1989 by inventor Dean Kamen to inspire young people's interest and participation in science and technology. Based in Manchester, N.H., the 501(c)(3) not-for-profit public charity inspires young people to be science and technology leaders by engaging them in exciting mentor-based programs that build science, technology, math, and engineering (STEM) skills; inspire innovation; and foster well-rounded life capabilities including self-confidence, communication, and leadership.
Earth is ruled by master-machines but the Three Laws of Robotics have been designed to ensure humans maintain the upper hand: 1) A robot may not injure a human being or allow a human being to come to harm 2) A robot must obey orders given to it by human beings except where such orders would conflict with the First Law. 3) A robot must protect its own existence as long as such protection does not conflict with the First or Second Law. But what happens when a rogue robot's idea of what is good for society contravenes the Three Laws?
Traces the story of how ancient cultures envisioned artificial life, automata, self-moving devices and human enhancements, sharing insights into how the mythologies of the past related to and shaped ancient machine innovations.
Make your First Robot will help students to build and program their first robot using Arduino. It starts with an introduction of the hardware and software required to build and program the robots. The concepts are explained with simple analogies. Detailed explanation of the functionalities and programming of each hardware component are given. Integration of all the hardware components and programs to make a fully functional robot is explained for a mini Path-finder and Robotic Arm. Inexpensive components are used to build these robots. This book will flourish your imagination to the next level of robotics.
The truth about robots: two experts look beyond the hype, offering a lively and accessible guide to what robots can (and can't) do. There’s a lot of hype about robots; some of it is scary and some of it utopian. In this accessible book, two robotics experts reveal the truth about what robots can and can’t do, how they work, and what we can reasonably expect their future capabilities to be. It will not only make you think differently about the capabilities of robots; it will make you think differently about the capabilities of humans. Ruth Aylett and Patricia Vargas discuss the history of our fascination with robots—from chatbots and prosthetics to autonomous cars and robot swarms. They show us the ways in which robots outperform humans and the ways they fall woefully short of our superior talents. They explain how robots see, feel, hear, think, and learn; describe how robots can cooperate; and consider robots as pets, butlers, and companions. Finally, they look at robots that raise ethical and social issues: killer robots, sexbots, and robots that might be gunning for your job. Living with Robots equips readers to look at robots concretely—as human-made artifacts rather than placeholders for our anxieties. Find out: •Why robots can swim and fly but find it difficult to walk •Which robot features are inspired by animals and insects •Why we develop feelings for robots •Which human abilities are hard for robots to emulate
Contains examples of how robotics can be used in grades K through 2 as a hands-on tool for helping children learn about science, technology, engineering, and mathematics.
The vision of seamless human-robot interaction in our everyday life that allows for tight cooperation between human and robot has not become reality yet. However, the recent increase in technology maturity finally made it possible to realize systems of high integration, advanced sensorial capabilities and enhanced power to cross this barrier and merge living spaces of humans and robot workspaces to at least a certain extent. Together with the increasing industrial effort to realize first commercial service robotics products this makes it necessary to properly address one of the most fundamental questions of Human-Robot Interaction: How to ensure safety in human-robot coexistence? In this authoritative monograph, the essential question about the necessary requirements for a safe robot is addressed in depth and from various perspectives. The approach taken in this book focuses on the biomechanical level of injury assessment, addresses the physical evaluation of robot-human impacts, and isolates the major factors that cause human injuries. This assessment is the basis for the design and exploration of various measures to improve safety in human-robot interaction. They range from control schemes for collision detection, reflex reaction, and avoidance to the investigation of novel joint designs that equip robots with fundamentally new capabilities. By the depth of its analysis and exceptionally salient experimental work, this monograph offers one of the most comprehensive treatments of the safety challenge in the field.
The sequel to thebestselling The Wild Robot, by award-winning author Peter Brown Shipwrecked on a remote, wild island, Robot Roz learned from the unwelcoming animal inhabitants and adapted to her surroundings--but can she survive the challenges of the civilized world and find her way home to Brightbill and the island? From bestselling and award-winning author and illustrator Peter Brown comes a heartwarming and action-packed sequel to his New York Times bestselling The Wild Robot,about what happens when nature and technology collide.