Shape Control of Manipulators with Hyper Degrees of
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This thesis deals with three different aspects of modeling and control of flexible,
i.e.,.
Shape Control of Manipulators with Hyper Degrees of
requirement that its direct kinematics tends to Frenet-Serret formula by increase in DOF. The results in this thesis give a new vision for robotic manipulator control ...
Shape Control of Manipulators with Hyper Degrees of Freedom by Hiromi MOCHIYAMA
submitted to Japan Advanced Institute of Science and Technology in partial ful llment of the requirements for the degree of Doctor of Philosophy
Supervisor
:
Professor Etsujiro Shimemura
School of Information Science Japan Advanced Institute of Science and Technology March 1998
Copyright c 1998 by Hiromi Mochiyama
Abstract This thesis provides a theoretical framework to control a manipulator with hyper degrees of freedom. The term \Hyper Degrees Of Freedom" (HDOF for short) is an emblematic word to express strong necessity of much more kinematic degrees of freedom for a manipulator nowadays. An HDOF manipulator has ability to achieve various kind of tasks. In order to make full use of its ability, a shape control is proposed here, that is, not only the tip of a manipulator, but also its whole shape is controlled. Before discussing the shape control, we rigorously de ne a shape correspondence between an HDOF manipulator and a spatial curve used for prescribing the desired shape. It is de ned by using the solution of some nonlinear optimization problems termed the shape inverse problem. We give not only the existence theorem of its solution, but also a theorem on the existence region which allows us to convert control problems appeared later into more tractable ones. Shape regulation control is considered rst to bring an HDOF manipulator onto a given time invariant curve. The idea of estimating the desired curve parameter enables us to nd the shape regulation law with curve parameter estimation law by Lyapunov design. This crucial idea of curve parameter estimation is also e ective for the shape tracking, where a time-varying curve is given to prescribe the desired shape. Two shape tracking control laws are derived by utilizing tracking control laws for conventional manipulator tracking. Furthermore, it is shown that joint velocity signals are not essential to achieve the shape tracking, that is, the shape tracking using only joint angles is attained. Based on the idea of conceptual duality, we derive an observer that does not directly estimate the joint angle velocities, but estimate the velocity of the shape. After properly tuned, the modi ed shape tracking controller and shape velocity observer assure the local asymptotic stability of the closed-loop system. We also give an example to show that new tasks which have never done before can be accomplished by shape control. The useful motion control for sophisticated obstacle avoidance is achieved by shape control idea. That is the motion along a curve useful i
for going into a narrow space. Two controllers achieving this motion are shown as the counterparts of two shape tracking controllers derived before. We also propose the way to nd essentials of an HDOF manipulators by increase in DOF. Conditions for the kinematic structure are derived from a geometrically natural requirement that its direct kinematics tends to Frenet-Serret formula by increase in DOF. The results in this thesis give a new vision for robotic manipulator control.
ii
Acknowledgments I would like, rst of all, to express my sincere gratitude to my principal advisor Professor Etsujiro Shimemura of Japan Advanced Institute of Science and Technology for his constant encouragement, kind guidance and giving me an opportunity to study this subject. I would like also to thank my advisor Professor Hisato Kobayashi of Hosei University for his helpful discussions and valuable suggestions. I am deeply indebted to my advisor Associate Professor Masayuki Fujita of Japan Advanced Institute of Science and Technology for his helpful far-sighted comments and suggestions. I would like to thank Professor Toshio Fukuda of Nagoya University, Professor Makoto Miyahara, Professor Teruo Matsuzawa and Associate Professor Taketoshi Yoshida of Japan Advanced Institute of Science and Technology for their reviewing my thesis and giving me valuable comments. I also wish to express my thanks to Dr. Izumi Masubuchi and Dr. Christoph Ament of Japan Advanced Institute of Science and Technology for their suggestions and continuous encouragements. I am grateful to Professor Kenkou Uchida of Waseda University, who was my advisor in my master course, gave me a lot of suggestions and kind encouragements. I devote my sincere thanks and appreciation to my colleagues and friends. Finally, I must also o er thanks to my parents for their support and constant encouragement via Email.
