Home SGS Trading Inc Principles of Robot Motion: Theory, Algorithms, and Implementations (Intelligent Robotics and Autonomous Agents series) by Choset, Howie; Lynch, Kevin M.; Hutchinson, Seth; Kantor, George A.; Burgard, Wolfram; Kavraki, Lydia E.; Thrun, Sebastian (ISBN: 9780262033275)

Principles of Robot Motion: Theory, Algorithms, and Implementations (Intelligent Robotics and Autonomous Agents series)

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Principles of Robot Motion: Theory, Algorithms, and Implementations (Intelligent Robotics and Autonomous Agents series) Hardback - 2005

Name: Principles of Robot Motion: Theory, Algorithms, and Implementations (Intelligent Robotics and Autonomous Agents series)
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Author: Choset, Howie; Lynch, Kevin M.; Hutchinson, Seth; Kantor, George A.; Burgard, Wolfram; Kavraki, Lydia E.; Thrun, Sebastian
ISBN: 9780262033275

by Choset, Howie; Lynch, Kevin M.; Hutchinson, Seth; Kantor, George A.; Burgard, Wolfram; Kavraki, Lydia E.; Thrun, Sebastian

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A Bradford Book, 2005-05-20. Hardcover. Good. US Edition Textbook, May Have Highlights, Notes and/or Underlining, BOOK ONLY-NO ACCESS CODE, NO CD, Ships with Emailed Tracking from USA

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Title Principles of Robot Motion: Theory, Algorithms, and Implementations (Intelligent Robotics and Autonomous Agents series)
Author Choset, Howie; Lynch, Kevin M.; Hutchinson, Seth; Kantor, George A.; Burgard, Wolfram; Kavraki, Lydia E.; Thrun, Sebastian
Binding Hardback
Edition [ Edition: First
Condition Used - Good
Pages 603
Volumes 1
Language ENG
Publisher A Bradford Book, India
Publication date 2005-05-20
Illustrated Yes
Features Bibliography, Illustrated, Index, Table of Contents
Bookseller's Inventory # DEC1-262033275-1973
ISBN 9780262033275 / 0262033275
Weight 2.9 lbs (1.32 kg)
Dimensions 9.4 x 8.1 x 1.52 in (23.88 x 20.57 x 3.86 cm)
Age range 18 to UP years
Grade levels 13 - UP
Category Technology & Industrial Arts
Library of Congress subjects Robots - Motion
Library of Congress Catalogue Number 2004044906
Dewey Decimal Code 629.892
Quantity available 2

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From the publisher

A text that makes the mathematical underpinnings of robot motion accessible and relates low-level details of implementation to high-level algorithmic concepts.

Robot motion planning has become a major focus of robotics. Research findings can be applied not only to robotics but to planning routes on circuit boards, directing digital actors in computer graphics, robot-assisted surgery and medicine, and in novel areas such as drug design and protein folding. This text reflects the great advances that have taken place in the last ten years, including sensor-based planning, probabalistic planning, localization and mapping, and motion planning for dynamic and nonholonomic systems. Its presentation makes the mathematical underpinnings of robot motion accessible to students of computer science and engineering, rleating low-level implementation details to high-level algorithmic concepts.

About the author

Howie Choset is Associate Professor in the Robotics Institute at Carnegie Mellon University.

Kevin M. Lynch is Associate Professor in the Mechanical Engineering Department, Northwestern University.

Seth Hutchinson is Professor in the Department of Electrical and Computer Engineering, University of Illinois at Urbana-Champaign.

George Kantor is Project Scientist in the Center for the Foundations of Robotics, Robotics Institute, Carnegie Mellon University.

Wolfram Burgard is Professor of Computer Science and Head of the research lab for Autonomous Intelligent Systems at the University of Freiburg.

Lydia E. Kavraki is Professor of Computer Science and Bioengineering, Rice University.

Sebastian Thrun is Associate Professor in the Computer Science Department at Stanford University and Director of the Stanford AI Lab.

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