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Creating Precision Robots: A Project-Based Approach to the Study of Mechatronics and Robotics shows how to use a new “Cardboard Engineering technique for the handmade construction of three precision microcomputer controlled robots that hit, throw and shoot. Throughout the book, the authors ensure that mathematical concepts and physical principles are not only rigorously described, but also go hand-in-hand with the design and constructional techniques of the working robot. Detailed theory, building plans and instructions, electric circuits and software algorithms are also included, along with the importance of tolerancing and the correct use of numbers in programming. The book is designed for students and educators who need a detailed description, mathematical analysis, design solutions, engineering drawings, electric circuits and software coding for the design and construction of real bench-top working robots. Provides detailed instructions for the building and construction of specialized robots using line drawings Teaches students how to make real working robots with direct meaning in the engineering academic world Describes and explains the math and physics theory related to hitting, throwing and shooting robots
This book provides an overview of recent research developments in the automation and control of robotic systems that collaborate with humans. A measure of human collaboration being necessary for the optimal operation of any robotic system, the contributors exploit a broad selection of such systems to demonstrate the importance of the subject, particularly where the environment is prone to uncertainty or complexity. They show how such human strengths as high-level decision-making, flexibility, and dexterity can be combined with robotic precision, and ability to perform task repetitively or in a dangerous environment. The book focuses on quantitative methods and control design for guaranteed robot performance and balanced human experience from both physical human-robot interaction and social human-robot interaction. Its contributions develop and expand upon material presented at various international conferences. They are organized into three parts covering: one-human–one-robot collaboration; one-human–multiple-robot collaboration; and human–swarm collaboration. Individual topic areas include resource optimization (human and robotic), safety in collaboration, human trust in robot and decision-making when collaborating with robots, abstraction of swarm systems to make them suitable for human control, modeling and control of internal force interactions for collaborative manipulation, and the sharing of control between human and automated systems, etc. Control and decision-making algorithms feature prominently in the text, importantly within the context of human factors and the constraints they impose. Applications such as assistive technology, driverless vehicles, cooperative mobile robots, manufacturing robots and swarm robots are considered. Illustrative figures and tables are provided throughout the book. Researchers and students working in controls, and the interaction of humans and robots will learn new methods for human–robot collaboration from this book and will find the cutting edge of the subject described in depth.
Text provides step-by-step, illustrated directions for designing, constructing, and testing a fully functional computer numerical control (CNC) robot. Includes time-saving tips, tricks, and pictoral help along the way. Softcover.
Unveiling the Magic: A Comprehensive Look at Robotic Art and Entertainment The world of art and entertainment is on the cusp of a revolution, and the driving force behind this change is not a paintbrush or a microphone, but a robotic arm. Robotic art and entertainment are rapidly transforming the way we experience creativity, blurring the lines between human ingenuity and machine precision. This comprehensive exploration delves into this captivating world, examining how robots are: Taking Center Stage: Discover how robotic performers are captivating audiences with their dynamic movements, precise control, and ability to interact with the environment in groundbreaking ways. From dazzling light shows to mesmerizing performances, robotic art is pushing the boundaries of what's possible on stage and beyond. Revolutionizing Artistic Creation: Explore how robotic arms are becoming powerful tools in the artist's arsenal. From intricate sculpting and painting to weaving innovative textiles and manipulating light in unimaginable ways, robots are empowering artists to bring their visions to life with unparalleled detail and precision. Shaping the Future of Storytelling: Uncover how robots are transforming the way we experience stories. Imagine interactive exhibits that allow you to engage with historical artifacts or captivating puppetry performances that combine technology with traditional storytelling elements. Robotic art is fostering a new era of immersive and engaging storytelling experiences. Reshaping Education and Learning: Move beyond textbooks and lectures! Learn how robotic arms are making education more interactive and engaging. Students can gain hands-on experience with scientific principles, be introduced to the fundamentals of robotics and programming, and participate in learning activities that cater to diverse needs and learning styles. Sparking Curiosity and Inspiring the Next Generation: See how robotic art and entertainment can ignite a passion for STEM fields in young minds. Witnessing the applications of robotics in art can make science, technology, engineering, and mathematics more relatable and inspiring, fostering a new generation of creative thinkers and innovators. Beyond the Glitz: Exploring the Ethical Landscape This exploration doesn't shy away from the ethical considerations surrounding robotic art. We delve into questions of authorship, the potential objectification of art, and the environmental impact of robotic technology. By fostering open dialogue and adopting responsible practices, artists and engineers can ensure that robotic art continues to flourish alongside ethical principles. A Future Symphony of Humanity and Machine As we peer into the future, the possibilities seem endless. The collaboration between humans and robots in art promises to redefine artistic expression, create more inclusive art experiences, and push the boundaries of creativity in ways we can only begin to imagine. This exploration of robotic art and entertainment is your invitation to a world where the lines between human and machine become instruments of artistic brilliance. Join us as we unveil the magic of this transformative artistic movement.
Owen Bishop introduces, through hands-on project work, the mechanics, electronics and programming involved in practical robot design-and-build. The use of the PIC microcontroller throughout provides a painless introduction to programming whilst harnessing the power of a highly popular microcontroller used by students and design engineers worldwide. This is a book for first-time robot builders, advanced builders wanting to know more about programming robots and students in Further and Higher Education tackling microcontroller-based practical work. They will all find this book a unique and exciting source of projects, ideas and techniques, to be combined into a wide range of fascinating robots. · Full step-by-step instructions for 5 complete self-build robots · Introduces key techniques in electronics, programming and construction - for robust robots that work first time · Illustrations, close-up photographs and a lively, readable text make this a fun and informative guide for novice and experienced robot builders
Learn the basics of modern robotics while building your own intelligent robot from scratch! You'll use inexpensive household materials to make the base for your robot, then add motors, power, wheels, and electronics. But wait, it gets better: your creation is actually five robots in one! -- build your bot in stages, and add the features you want. Vary the functions to create a robot that's uniquely yours. Mix and match features to make your own custom robot: Flexible Motorized Base -- a playpen for all kinds of programming experiments Obstacle Detector -- whiskers detect when your robot has bumped into things Object Avoider -- ultrasonic sound lets your robot see what's in front of it Infrared Remote Control -- command your robot from your easy chair Line Follower -- use optics to navigate your bot; have races with other robot builders! You will learn how switches, ultrasonics, infrared detectors, and optical sensors work. Install an Arduino microcontroller board and program your robot to avoid obstacles, provide feedback with lights and sound, and follow a tracking line. In this book you will combine multiple disciplines -- electronics, programming, and engineering -- to successfully build a multifunctional robot. You'll discover how to: construct a motorized base set up an Arduino to function as the brain use "whisker" switches to detect physical contact avoid obstacles with ultrasonic sensors teach your robot to judge distances use a universal remote to control your robot install and program a servo motor respond to input with LEDs, buzzers, and tones mount line-following sensors under your robot And more. Everything is explained with lots and lots of full-color line drawings. No prior experience is necessary. You'll have fun while you learn a ton!
Bring life to your robot using ROS robotic applications About This Book This book will help you boost your knowledge of ROS and give you advanced practical experience you can apply to your ROS robot platforms This is the only book that offers you step-by-step instructions to solidify your ROS understanding and gain experience using ROS tools From eminent authors, this book offers you a plethora of fun-filled examples to make your own quadcopter, turtlebot, and two-armed robots Who This Book Is For If you are a robotics developer, whether a hobbyist, researchers or professional, and are interested in learning about ROS through a hands-on approach, then this book is for you. You are encouraged to have a working knowledge of GNU/Linux systems and Python. What You Will Learn Get to know the fundamentals of ROS and apply its concepts to real robot examples Control a mobile robot to navigate autonomously in an environment Model your robot designs using URDF and Xacro, and operate them in a ROS Gazebo simulation Control a 7 degree-of-freedom robot arm for visual servoing Fly a quadcopter to autonomous waypoints Gain working knowledge of ROS tools such as Gazebo, rviz, rqt, and Move-It Control robots with mobile devices and controller boards In Detail The visionaries who created ROS developed a framework for robotics centered on the commonality of robotic systems and exploited this commonality in ROS to expedite the development of future robotic systems. From the fundamental concepts to advanced practical experience, this book will provide you with an incremental knowledge of the ROS framework, the backbone of the robotics evolution. ROS standardizes many layers of robotics functionality from low-level device drivers to process control to message passing to software package management. This book provides step-by-step examples of mobile, armed, and flying robots, describing the ROS implementation as the basic model for other robots of these types. By controlling these robots, whether in simulation or in reality, you will use ROS to drive, move, and fly robots using ROS control. Style and approach This is an easy-to-follow guide with hands-on examples of ROS robots, both real and in simulation.
This book will help marketers, brand managers, and advertising executives who may have less experience in the research industry create great questionnaires and collect high quality data. It will also help academic and experienced researchers write questionnaires that are better suited for the general population, particularly when using research panels and customer lists. This book was conceived by experienced researcher with more than fifteen years of practical experience who realized that many questionnaire guides continue to treat the people who answer questionnaires as robots rather than as fallible, imperfect people. Topics include general considerations related to the process, how to write screener questions, how to write data quality questions, and how to tackle specific types of questions from single-selects, grids, scales, and more.
Algorithms are a fundamental component of robotic systems. Robot algorithms process inputs from sensors that provide noisy and partial data, build geometric and physical models of the world, plan high-and low-level actions at different time horizons, and execute these actions on actuators with limited precision. The design and analysis of robot algorithms raise a unique combination of questions from many elds, including control theory, computational geometry and topology, geometrical and physical modeling, reasoning under uncertainty, probabilistic algorithms, game theory, and theoretical computer science. The Workshop on Algorithmic Foundations of Robotics (WAFR) is a single-track meeting of leading researchers in the eld of robot algorithms. Since its inception in 1994, WAFR has been held every other year, and has provided one of the premiere venues for the publication of some of the eld's most important and lasting contributions. This books contains the proceedings of the tenth WAFR, held on June 13{15 2012 at the Massachusetts Institute of Technology. The 37 papers included in this book cover a broad range of topics, from fundamental theoretical issues in robot motion planning, control, and perception, to novel applications.
Robotics, a field that once belonged to the realm of science fiction, has rapidly evolved into a transformative force shaping our world. From the automated assembly lines of modern factories to sophisticated surgical robots that enhance medical precision, robots are revolutionizing industries and redefining human capabilities. This book is an invitation to explore the fascinating world of robotics, delving into its fundamental principles, diverse applications, and profound impact on society. As you embark on this journey through the world of robotics, you will discover the ingenuity and innovation that drive this field. You will gain insights into the intricate mechanisms that enable robots to perceive, move, and interact with their surroundings. You will explore the diverse array of robots that have emerged, from the industrial giants that power manufacturing to the nimble service robots that assist us in our daily lives. Beyond the technical aspects, this book delves into the societal implications of robotics. You will examine the ethical considerations surrounding the development and deployment of robots, addressing concerns about job displacement, safety, and the potential impact on human autonomy. You will also explore the transformative potential of robotics to enhance human well-being, improve healthcare, and expand our understanding of the world around us. This book is intended for anyone with a curiosity about robotics, whether you are a student, a professional, or simply an inquisitive mind. It is designed to provide a comprehensive yet accessible introduction to this rapidly evolving field, equipping you with the knowledge to understand the impact of robotics on our world and to engage in informed discussions about its future. As you navigate through the chapters, remember that robotics is not merely a field of technology; it is a testament to human ingenuity and our relentless pursuit of innovation. It is an opportunity to reimagine the boundaries of what is possible, to enhance human capabilities, and to shape a future where robots and humans collaborate to create a world of greater efficiency, safety, and well-being. Welcome to the exciting and ever-expanding world of robotics.