Nonholonomic Motion Planning [electronic resource] /

Nonholonomic Motion Planning [electronic resource] /

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Nonholonomic Motion Planning grew out of the workshop that took place at the 1991 IEEE International Conference on Robotics and Automation. It consists of contributed chapters representing new developments in this area. Contributors to the book include robotics engineers, nonlinear control experts, differential geometers and applied mathematicians. Nonholonomic Motion Planning is arranged into three chapter groups: Controllability: one of the key mathematical tools needed to study nonholonomic motion. Motion Planning for Mobile Robots: in this section the papers are focused on problems with nonholonomic velocity constraints as well as constraints on the generalized coordinates. Falling Cats, Space Robots and Gauge Theory: there are numerous connections to be made between symplectic geometry techniques for the study of holonomies in mechanics, gauge theory and control. In this section these connections are discussed using the backdrop of examples drawn from space robots and falling cats reorienting themselves. Nonholonomic Motion Planning can be used either as a reference for researchers working in the areas of robotics, nonlinear control and differential geometry, or as a textbook for a graduate level robotics or nonlinear control course.

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Bibliographic Details
Main Authors: Li, Zexiang. editor., Canny, J. F. editor., SpringerLink (Online service)
Format: Texto biblioteca
Language:eng
Published: Boston, MA : Springer US : Imprint: Springer, 1993
Subjects:Engineering., Artificial intelligence., Computer graphics., Control engineering., Robotics., Mechatronics., Automation., Electrical engineering., Robotics and Automation., Control, Robotics, Mechatronics., Computer Imaging, Vision, Pattern Recognition and Graphics., Artificial Intelligence (incl. Robotics)., Electrical Engineering.,
Online Access:http://dx.doi.org/10.1007/978-1-4615-3176-0
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spelling KOHA-OAI-TEST:1855302018-07-30T23:07:37ZNonholonomic Motion Planning [electronic resource] / Li, Zexiang. editor. Canny, J. F. editor. SpringerLink (Online service) textBoston, MA : Springer US : Imprint: Springer,1993.engNonholonomic Motion Planning grew out of the workshop that took place at the 1991 IEEE International Conference on Robotics and Automation. It consists of contributed chapters representing new developments in this area. Contributors to the book include robotics engineers, nonlinear control experts, differential geometers and applied mathematicians. Nonholonomic Motion Planning is arranged into three chapter groups: Controllability: one of the key mathematical tools needed to study nonholonomic motion. Motion Planning for Mobile Robots: in this section the papers are focused on problems with nonholonomic velocity constraints as well as constraints on the generalized coordinates. Falling Cats, Space Robots and Gauge Theory: there are numerous connections to be made between symplectic geometry techniques for the study of holonomies in mechanics, gauge theory and control. In this section these connections are discussed using the backdrop of examples drawn from space robots and falling cats reorienting themselves. Nonholonomic Motion Planning can be used either as a reference for researchers working in the areas of robotics, nonlinear control and differential geometry, or as a textbook for a graduate level robotics or nonlinear control course.1. Non-holonomic Kinematics and the Role of Elliptic Functions in Constructive Controllability -- 2. Steering Nonholonomic Control Systems Using Sinusoids -- 3. Smooth Time-Periodic Feedback Solutions for Nonholonomic Motion Planning -- 4. Lie Bracket Extensions and Averaging: The Single-Bracket Case -- 5. Singularities and Topological Aspects in Nonholonomic Motion Planning -- 6. Motion Planning for Nonholonomic Dynamic Systems -- 7. A Differential Geometric Approach to Motion Planning -- 8. Planning Smooth Paths for Mobile Robots -- 9. Nonholonomic Control and Gauge Theory -- 10. Optimal Nonholonomic Motion Planning for a Falling Cat -- 11. Nonholonomic Behavior in Free-floating Space Manipulators and its Utilization.Nonholonomic Motion Planning grew out of the workshop that took place at the 1991 IEEE International Conference on Robotics and Automation. It consists of contributed chapters representing new developments in this area. Contributors to the book include robotics engineers, nonlinear control experts, differential geometers and applied mathematicians. Nonholonomic Motion Planning is arranged into three chapter groups: Controllability: one of the key mathematical tools needed to study nonholonomic motion. Motion Planning for Mobile Robots: in this section the papers are focused on problems with nonholonomic velocity constraints as well as constraints on the generalized coordinates. Falling Cats, Space Robots and Gauge Theory: there are numerous connections to be made between symplectic geometry techniques for the study of holonomies in mechanics, gauge theory and control. In this section these connections are discussed using the backdrop of examples drawn from space robots and falling cats reorienting themselves. Nonholonomic Motion Planning can be used either as a reference for researchers working in the areas of robotics, nonlinear control and differential geometry, or as a textbook for a graduate level robotics or nonlinear control course.Engineering.Artificial intelligence.Computer graphics.Control engineering.Robotics.Mechatronics.Automation.Electrical engineering.Engineering.Robotics and Automation.Control, Robotics, Mechatronics.Computer Imaging, Vision, Pattern Recognition and Graphics.Artificial Intelligence (incl. Robotics).Electrical Engineering.Springer eBookshttp://dx.doi.org/10.1007/978-1-4615-3176-0URN:ISBN:9781461531760
institution COLPOS
collection Koha
country México
countrycode MX
component Bibliográfico
access En linea
En linea
databasecode cat-colpos
tag biblioteca
region America del Norte
libraryname Departamento de documentación y biblioteca de COLPOS
language eng
topic Engineering.
Artificial intelligence.
Computer graphics.
Control engineering.
Robotics.
Mechatronics.
Automation.
Electrical engineering.
Engineering.
Robotics and Automation.
Control, Robotics, Mechatronics.
Computer Imaging, Vision, Pattern Recognition and Graphics.
Artificial Intelligence (incl. Robotics).
Electrical Engineering.
Engineering.
Artificial intelligence.
Computer graphics.
Control engineering.
Robotics.
Mechatronics.
Automation.
Electrical engineering.
Engineering.
Robotics and Automation.
Control, Robotics, Mechatronics.
Computer Imaging, Vision, Pattern Recognition and Graphics.
Artificial Intelligence (incl. Robotics).
Electrical Engineering.
spellingShingle Engineering.
Artificial intelligence.
Computer graphics.
Control engineering.
Robotics.
Mechatronics.
Automation.
Electrical engineering.
Engineering.
Robotics and Automation.
Control, Robotics, Mechatronics.
Computer Imaging, Vision, Pattern Recognition and Graphics.
Artificial Intelligence (incl. Robotics).
Electrical Engineering.
Engineering.
Artificial intelligence.
Computer graphics.
Control engineering.
Robotics.
Mechatronics.
Automation.
Electrical engineering.
Engineering.
Robotics and Automation.
Control, Robotics, Mechatronics.
Computer Imaging, Vision, Pattern Recognition and Graphics.
Artificial Intelligence (incl. Robotics).
Electrical Engineering.
Li, Zexiang. editor.
Canny, J. F. editor.
SpringerLink (Online service)
Nonholonomic Motion Planning [electronic resource] /
description Nonholonomic Motion Planning grew out of the workshop that took place at the 1991 IEEE International Conference on Robotics and Automation. It consists of contributed chapters representing new developments in this area. Contributors to the book include robotics engineers, nonlinear control experts, differential geometers and applied mathematicians. Nonholonomic Motion Planning is arranged into three chapter groups: Controllability: one of the key mathematical tools needed to study nonholonomic motion. Motion Planning for Mobile Robots: in this section the papers are focused on problems with nonholonomic velocity constraints as well as constraints on the generalized coordinates. Falling Cats, Space Robots and Gauge Theory: there are numerous connections to be made between symplectic geometry techniques for the study of holonomies in mechanics, gauge theory and control. In this section these connections are discussed using the backdrop of examples drawn from space robots and falling cats reorienting themselves. Nonholonomic Motion Planning can be used either as a reference for researchers working in the areas of robotics, nonlinear control and differential geometry, or as a textbook for a graduate level robotics or nonlinear control course.
format Texto
topic_facet Engineering.
Artificial intelligence.
Computer graphics.
Control engineering.
Robotics.
Mechatronics.
Automation.
Electrical engineering.
Engineering.
Robotics and Automation.
Control, Robotics, Mechatronics.
Computer Imaging, Vision, Pattern Recognition and Graphics.
Artificial Intelligence (incl. Robotics).
Electrical Engineering.
author Li, Zexiang. editor.
Canny, J. F. editor.
SpringerLink (Online service)
author_facet Li, Zexiang. editor.
Canny, J. F. editor.
SpringerLink (Online service)
author_sort Li, Zexiang. editor.
title Nonholonomic Motion Planning [electronic resource] /
title_short Nonholonomic Motion Planning [electronic resource] /
title_full Nonholonomic Motion Planning [electronic resource] /
title_fullStr Nonholonomic Motion Planning [electronic resource] /
title_full_unstemmed Nonholonomic Motion Planning [electronic resource] /
title_sort nonholonomic motion planning [electronic resource] /
publisher Boston, MA : Springer US : Imprint: Springer,
publishDate 1993
url http://dx.doi.org/10.1007/978-1-4615-3176-0
work_keys_str_mv AT lizexiangeditor nonholonomicmotionplanningelectronicresource
AT cannyjfeditor nonholonomicmotionplanningelectronicresource
AT springerlinkonlineservice nonholonomicmotionplanningelectronicresource
_version_ 1756265385015902208

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