Robot Motion
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Author | : Jean-Claude Latombe |
Publisher | : Springer Science & Business Media |
Total Pages | : 668 |
Release | : 2012-12-06 |
Genre | : Technology & Engineering |
ISBN | : 1461540224 |
One of the ultimate goals in Robotics is to create autonomous robots. Such robots will accept high-level descriptions of tasks and will execute them without further human intervention. The input descriptions will specify what the user wants done rather than how to do it. The robots will be any kind of versatile mechanical device equipped with actuators and sensors under the control of a computing system. Making progress toward autonomous robots is of major practical inter est in a wide variety of application domains including manufacturing, construction, waste management, space exploration, undersea work, as sistance for the disabled, and medical surgery. It is also of great technical interest, especially for Computer Science, because it raises challenging and rich computational issues from which new concepts of broad useful ness are likely to emerge. Developing the technologies necessary for autonomous robots is a formidable undertaking with deep interweaved ramifications in auto mated reasoning, perception and control. It raises many important prob lems. One of them - motion planning - is the central theme of this book. It can be loosely stated as follows: How can a robot decide what motions to perform in order to achieve goal arrangements of physical objects? This capability is eminently necessary since, by definition, a robot accomplishes tasks by moving in the real world. The minimum one would expect from an autonomous robot is the ability to plan its x Preface own motions.
Author | : Michael Brady |
Publisher | : MIT Press |
Total Pages | : 618 |
Release | : 1982 |
Genre | : Computers |
ISBN | : 9780262021821 |
Dynamics; Feedback control; Trajectory planning; Compliance; Task planning.
Author | : Kevin M. Lynch |
Publisher | : Cambridge University Press |
Total Pages | : 545 |
Release | : 2017-05-25 |
Genre | : Computers |
ISBN | : 1107156300 |
A modern and unified treatment of the mechanics, planning, and control of robots, suitable for a first course in robotics.
Author | : Jacob T. Schwartz |
Publisher | : Intellect Books |
Total Pages | : 364 |
Release | : 1987 |
Genre | : Science |
ISBN | : |
Robotics has come to attract the attention of mathematicians and theoretical computer scientists to a rapidly increasing degree. Initial investigations have shown that robotics is a rich source of deep theoretical problems, which range over computational geometry, control theory, and many aspects of physics, and whose solutions draw upon methods developed in subjects as diverse as automata theory, algebraic topology, and Fourier analysis.
Author | : Linda Zajac |
Publisher | : Millbrook Press TM |
Total Pages | : 32 |
Release | : 2022-01-01 |
Genre | : Juvenile Nonfiction |
ISBN | : 1728423007 |
AudiseeĀ® eBooks with Audio combine professional narration and sentence highlighting for an engaging read aloud experience! It's a bird, it's a plane, it's a . . . robo-hummingbird? Meet robots engineered using biomimicry that are built to move like animals. These robots are changing the way we live today and shaping the way we'll live in the future. On spreads pairing photos of robots with the animals they mimic, you'll discover robots that race through water like fish, run like cheetahs, jump like a kangaroo, swarm through the sky like honeybees, and more!
Author | : John Canny |
Publisher | : MIT Press |
Total Pages | : 220 |
Release | : 1988 |
Genre | : Computers |
ISBN | : 9780262031363 |
The Complexity of Robot Motion Planning makes original contributions both to roboticsand to the analysis of algorithms. In this groundbreaking monograph John Canny resolveslong-standing problems concerning the complexity of motion planning and, for the central problem offinding a collision free path for a jointed robot in the presence of obstacles, obtains exponentialspeedups over existing algorithms by applying high-powered new mathematical techniques.Canny's newalgorithm for this "generalized movers' problem," the most-studied and basic robot motion planningproblem, has a single exponential running time, and is polynomial for any given robot. The algorithmhas an optimal running time exponent and is based on the notion of roadmaps - one-dimensionalsubsets of the robot's configuration space. In deriving the single exponential bound, Cannyintroduces and reveals the power of two tools that have not been previously used in geometricalgorithms: the generalized (multivariable) resultant for a system of polynomials and Whitney'snotion of stratified sets. He has also developed a novel representation of object orientation basedon unnormalized quaternions which reduces the complexity of the algorithms and enhances theirpractical applicability.After dealing with the movers' problem, the book next attacks and derivesseveral lower bounds on extensions of the problem: finding the shortest path among polyhedralobstacles, planning with velocity limits, and compliant motion planning with uncertainty. Itintroduces a clever technique, "path encoding," that allows a proof of NP-hardness for the first twoproblems and then shows that the general form of compliant motion planning, a problem that is thefocus of a great deal of recent work in robotics, is non-deterministic exponential time hard. Cannyproves this result using a highly original construction.John Canny received his doctorate from MITAnd is an assistant professor in the Computer Science Division at the University of California,Berkeley. The Complexity of Robot Motion Planning is the winner of the 1987 ACM DoctoralDissertation Award.
Author | : Jean-Paul Laumond |
Publisher | : Springer |
Total Pages | : 366 |
Release | : 1998 |
Genre | : Technology & Engineering |
ISBN | : |
Content Description #Includes bibliographical references.
Author | : Jean-Paul Laumond |
Publisher | : Springer |
Total Pages | : 433 |
Release | : 2015-11-24 |
Genre | : Technology & Engineering |
ISBN | : 3319257390 |
How and why to write a movement? Who is the writer? Who is the reader? They may be choreographers working with dancers. They may be roboticists programming robots. They may be artists designing cartoons in computer animation. In all such fields the purpose is to express an intention about a dance, a specific motion or an action to perform, in terms of intelligible sequences of elementary movements, as a music score that would be devoted to motion representation. Unfortunately there is no universal language to write a motion. Motion languages live together in a Babel tower populated by biomechanists, dance notators, neuroscientists, computer scientists, choreographers, roboticists. Each community handles its own concepts and speaks its own language. The book accounts for this diversity. Its origin is a unique workshop held at LAAS-CNRS in Toulouse in 2014. Worldwide representatives of various communities met there. Their challenge was to reach a mutual understanding allowing a choreographer to access robotics concepts, or a computer scientist to understand the subtleties of dance notation. The liveliness of this multidisciplinary meeting is reflected by the book thank to the willingness of authors to share their own experiences with others.
Author | : Krzysztof R. Kozlowski |
Publisher | : Springer |
Total Pages | : 401 |
Release | : 2006-07-26 |
Genre | : Technology & Engineering |
ISBN | : 1846284058 |
This book presents recent results in robot motion and control. Twenty papers presented at the Fourth International Workshop on Robot Motion and Control held in 2004 have been expanded. The authors of these papers were carefully selected and represent leading institutions in this field. The book covers nonlinear control of nonholonomic systems and legged robots as well as trajectory planning for these systems, topics not covered in previous books.
Author | : Yunong Zhang |
Publisher | : Springer Science & Business Media |
Total Pages | : 201 |
Release | : 2014-07-08 |
Genre | : Technology & Engineering |
ISBN | : 3642375189 |
Repetitive Motion Planning and Control of Redundant Robot Manipulators presents four typical motion planning schemes based on optimization techniques, including the fundamental RMP scheme and its extensions. These schemes are unified as quadratic programs (QPs), which are solved by neural networks or numerical algorithms. The RMP schemes are demonstrated effectively by the simulation results based on various robotic models; the experiments applying the fundamental RMP scheme to a physical robot manipulator are also presented. As the schemes and the corresponding solvers presented in the book have solved the non-repetitive motion problems existing in redundant robot manipulators, it is of particular use in applying theoretical research based on the quadratic program for redundant robot manipulators in industrial situations. This book will be a valuable reference work for engineers, researchers, advanced undergraduate and graduate students in robotics fields. Yunong Zhang is a professor at The School of Information Science and Technology, Sun Yat-sen University, Guangzhou, China; Zhijun Zhang is a research fellow working at the same institute.