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Robotics and Automation Handbook
ROBOTICS AND
AUTOMATION HANDBOOK
E
DITED
BY
Thomas R. Kurfess
Ph.D., P.E.
CRC PRESS
Boca Raton London New York Washington, D.C.
Copyright © 2005 by CRC Press LLC
Library of Congress Cataloging-in-Publication Data
Robotics and automation handbook / edited by Thomas R. Kurfess.
p. cm.
Includes bibliographical references and index.
ISBN 0-8493-1804-1 (alk. paper)
1. Robotics--Handbooks, manuals, etc. I. Kurfess, Thomas R.
TJ211.R5573 2000
629.8’92—dc21
2004049656
This book contains information obtained from authentic and highly regarded sources. Reprinted material is quoted with
permission, and sources are indicated. A wide variety of references are listed. Reasonable efforts have been made to publish
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International Standard Book Number 0-8493-1804-1
Library of Congress Card Number 2004049656
Printed in the United States of America 1 2 3 4 5 6 7 8 9 0
Printed on acid-free paper
Copyright © 2005 by CRC Press LLC
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Preface
Robots are machines that have interested the general population throughout history. In general, they are
machines or devices that operate automatically or by remote control. Clearly people have wanted to use
such equipment since simple devices were developed. The word
robot
itself comes from Czech
robota
,
“servitude, forced labor,” and was coined in 1923 (from dictionary.com). Since then robots have been
characterized by the media as machines that look similar to humans. Robots such as “Robby the Robot”
or
Robot
from the Lost in Space television series defined the appearance of robots to several generations.
However, robots are more than machines that walk around yelling “Danger!” They are used in a variety of
tasks from the very exciting, such as space exploration (e.g., the Mars Rover), to the very mundane (e.g.,
vacuuming your home, which is not a simple task). They are complex and useful systems that have been
employed in industry for several decades. As technology advances, the capability and utility of robots have
increased dramatically. Today, we have robots that assemble cars, weld, fly through hostile environments,
and explore the harshest environments from the depths of the ocean, to the cold and dark environment of
the Antarctic, to the hazardous depths of active volcanoes, to the farthest reaches of outer space. Robots
take on tasks that people do not want to perform. Perhaps these tasks are too boring, perhaps they are too
dangerous, or perhaps the robot can outperform its human counterpart.
This text is targeted at the fundamentals of robot design, implementation, and application. As robots
are used in a substantial number of functions, this book only scratches the surface of their applications.
However, it does provide a firm basis for engineers and scientists interested in either fabrication or utilizing
robotic systems. The first part of this handbook presents a number of design issues that must be considered
in building and utilizing a robotic system. Both issues related to the entire robot, such as control and
trajectory planning and dynamics are discussed. Critical concepts such as precision control of rotary and
linear axes are also presented at they are necessary to yield optimal performance out of a robotic system. The
book then continues with a number of specialized applications of robotic systems. In these applications,
such as the medical arena, particular design and systems considerations are presented that are highlighted
by these applications but are critical in a significant cross-section of areas. It was a pleasure to work with
the authors of the various sections. They are experts in their areas, and in reviewing their material, I have
improved my understanding of robotic systems. I hope that the readers will enjoy reading the text as much
as I have enjoyed reading and assembling it. I anticipate that future versions of this book will incorporate
more applications as well as advanced concepts in robot design and implementation.
Copyright © 2005 by CRC Press LLC
The Editor
Thomas R. Kurfess
received his S.B., S.M., and Ph.D. degrees in mechanical engineering from M.I.T. in
1986, 1987, and 1989, respectively. He also received an S.M. degree from M.I.T. in electrical engineering
and computer science in 1988. Following graduation, he joined Carnegie Mellon University where he rose
to the rank of Associate Professor. In 1994 he moved to the Georgia Institute of Technology where he is
currently a Professor in the George W. Woodruff School of Mechanical Engineering. He presently serves
as a participating guest at the Lawrence Livermore National Laboratory in their Precision Engineering
Program. He is also a special consultant of the United Nations to the Government of Malaysia in the area
of applied mechatronics and manufacturing. His research work focuses on the design and development
of high precision manufacturing and metrology systems. He has chaired workshops for the National
Science Foundation on the future of engineering education and served on the Committee of Visitors for
NSF’s Engineering Education and Centers Division. He has had similar roles in education and technology
assessment for a variety of countries as well as the U.N.
His primary area of research is precision engineering. To this end he has applied advanced control theory
to both measurement machines and machine tools, substantially improving their performance. During
the past twelve years, Dr. Kurfess has concentrated in precision grinding, high-speed scanning coordinate
measurement machines, and statistical analysis of CMM data. He is actively involved in using advanced
mechatronics units in large scale applications to generate next generation high performance systems. Dr.
Kurfess has a number of research projects sponsored by both industry and governmental agencies in this
area. He has also given a number of workshops, sponsored by the National Science Foundation, in the
areas of teaching controls and mechatronics to a variety of professors throughout the country.
In 1992 he was awarded a National Science Foundation Young Investigator Award, and in 1993 he
received the National Science Foundation Presidential Faculty Fellowship Award. He is also the recipient
of the ASME Pi Tau Sigma Award, the SME Young Manufacturing Engineer of the Year Award, the ASME
Gustus L. Larson Memorial Award and the ASME Blackall Machine Tool and Gage Award. He has received
the Class of 1940 W. Howard Ector’s Outstanding Teacher Award and the Outstanding Faculty Leadership
for the Development of Graduate Research Assistants Award while at Georgia Tech. He is a registered
Professional Engineer, and is active in several engineering societies, including ASEE, ASME, ASPE, IEEE
and SME. He is currently serving as a Technical Associate Editor of the
SME Journal of Manufacturing
Systems
, and Associate Editor of the
ASME Journal of Manufacturing Science and Engineering.
He has served
as an Associate Editor of the
ASME Journal of Dynamic Systems, Measurement and Control
.Heisonthe
Editorial Advisory Board of the
International Journal of Engineering Education
, and serves on the board of
North American Manufacturing Research Institute of SME.
Copyright © 2005 by CRC Press LLC
Contributors
Mohan Bodduluri
Restoration Robotics
Sunnyvale, California
Darren M. Dawson
Clemson University
Electrical and Computer
Engineering
Clemson, South Carolina
Hector M. Gutierrez
Florida Institute of Technology
Department of Mechanical and
Aerospace Engineering
Melbourne, Florida
Wayne J. Book
Georgia Institute of Technology
Woodruff School of
Mechanical Engineering
Atlanta, Georgia
Bram de Jager
Technical University of
Eindhoven
Eindhoven, Netherlands
Yasuhisa Hirata
Tohoku University
Department of Bioengineering
and Robotics
Sendai, Japan
StephenP.Buerger
Massachusetts Institute of
Technology
Mechanical Engineering
Department
North Cambridge,
Massachusetts
Jaydev P. Desai
Drexel University
MEM Department
Philadelphia, Pennsylvania
Neville Hogan
Massachusetts Institute of
Technology
Mechanical Engineering
Department
North Cambridge,
Massachusetts
Jeanne Sullivan Falcon
National Instruments
Austin, Texas
Keith W. Buffinton
Bucknell University
Department of Mechanical
Engineering
Lewisburg, Pennsylvania
Daniel D. Frey
Massachusetts Institute of
Technology
Mechanical Engineering
Department
North Cambridge,
Massachusetts
Kun Huang
University of Illinois at
Urbana-Champagne
Coordinated Sciences
Laboratory
Urbana, Illinois
Francesco Bullo
University of Illinois at
Urbana-Champaign
Coordinated Science
Laboratory
Urbana, Illinois
Hodge E. Jenkins,
Mercer University
Mechanical and Industrial
Engineering Department
Macon, Georgia
Robert B. Gillespie
University of Michigan
Ann Arbor, Michigan
Gregory S. Chirikjian
Johns Hopkins University
Department of Mechanical
Engineering
Baltimore, Maryland
J. William Goodwine
Notre Dame University
Aerospace and Mechanical
Engineering Department
Notre Dame, Indiana
Dragan Kostic
Technical University of
Eindhoven
Eindhoven, Netherlands
Copyright © 2005 by CRC Press LLC
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