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Adaptive robust control for planar s...

Mukherjee, Joyjit.

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Adaptive robust control for planar snake robots

Record Type:	Electronic resources : Monograph/item
Title/Author:	Adaptive robust control for planar snake robots/ by Joyjit Mukherjee, Indra Narayan Kar, Sudipto Mukherjee.
Author:	Mukherjee, Joyjit.
other author:	Kar, Indra Narayan.
Published:	Cham :Springer International Publishing : : 2021.,
Description:	xvi, 168 p. :ill., digital ;24 cm.
[NT 15003449]:	Introduction -- Adaptive Sliding-Mode Control for Velocity and Head-Angle Tracking -- Time Delayed Control for Planar Snake Robots -- Adaptive Robust Time Delayed Control for Planar Snake Robots -- Diﬀerential Flatness and its Application to Snake Robots -- Modeling of in-Pipe Snake Robot Motion -- Conclusions.
Contained By:	Springer Nature eBook
Subject:	Robust control. -
Online resource:	https://doi.org/10.1007/978-3-030-71460-4
ISBN:	9783030714604

Adaptive robust control for planar snake robots
Mukherjee, Joyjit.

Adaptive robust control for planar snake robots[electronic resource] /by Joyjit Mukherjee, Indra Narayan Kar, Sudipto Mukherjee. - Cham :Springer International Publishing :2021. - xvi, 168 p. :ill., digital ;24 cm. - Studies in systems, decision and control,v.3632198-4182 ;. - Studies in systems, decision and control ;v.363..

Introduction -- Adaptive Sliding-Mode Control for Velocity and Head-Angle Tracking -- Time Delayed Control for Planar Snake Robots -- Adaptive Robust Time Delayed Control for Planar Snake Robots -- Diﬀerential Flatness and its Application to Snake Robots -- Modeling of in-Pipe Snake Robot Motion -- Conclusions.

This book shows how a conventional multi-layered approach can be used to control a snake robot on a desired path while moving on a flat surface. To achieve robustness to unknown variations in surface conditions, it explores various adaptive robust control methods. The authors propose a sliding-mode control approach designed to achieve robust maneuvering for bounded uncertainty with a known upper bound. The control is modified by addition of an adaptation law to alleviate the overestimation problem of the switching gain as well as to circumvent the requirement for knowledge regarding the bounds of uncertainty. The book works toward non-conservativeness, achieving efficient tracking in the presence of slowly varying uncertainties with a specially designed framework for time-delayed control. It shows readers how to extract superior performance from their snake robots with an approach that allows robustness toward bounded time-delayed estimation errors. The book also demonstrates how the multi-layered control framework can be simplified by employing differential flatness for such a system. Finally, the mathematical model of a snake robot moving inside a uniform channel using only side-wall contact is discussed. The model has further been employed to demonstrate adaptive robust control design for such a motion. Using numerous illustrations and tables, Adaptive Robust Control for Planar Snake Robots will interest researchers, practicing engineers and postgraduate students working in the field of robotics and control systems.

ISBN: 9783030714604

Standard No.: 10.1007/978-3-030-71460-4doiSubjects--Topical Terms:

896766
Robust control.

LC Class. No.: TJ217.2 / .M85 2021

Dewey Class. No.: 629.892

Adaptive robust control for planar snake robots
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300 $a xvi, 168 p. : $b ill., digital ; $c 24 cm.
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505 0 $a Introduction -- Adaptive Sliding-Mode Control for Velocity and Head-Angle Tracking -- Time Delayed Control for Planar Snake Robots -- Adaptive Robust Time Delayed Control for Planar Snake Robots -- Diﬀerential Flatness and its Application to Snake Robots -- Modeling of in-Pipe Snake Robot Motion -- Conclusions.
520 $a This book shows how a conventional multi-layered approach can be used to control a snake robot on a desired path while moving on a flat surface. To achieve robustness to unknown variations in surface conditions, it explores various adaptive robust control methods. The authors propose a sliding-mode control approach designed to achieve robust maneuvering for bounded uncertainty with a known upper bound. The control is modified by addition of an adaptation law to alleviate the overestimation problem of the switching gain as well as to circumvent the requirement for knowledge regarding the bounds of uncertainty. The book works toward non-conservativeness, achieving efficient tracking in the presence of slowly varying uncertainties with a specially designed framework for time-delayed control. It shows readers how to extract superior performance from their snake robots with an approach that allows robustness toward bounded time-delayed estimation errors. The book also demonstrates how the multi-layered control framework can be simplified by employing differential flatness for such a system. Finally, the mathematical model of a snake robot moving inside a uniform channel using only side-wall contact is discussed. The model has further been employed to demonstrate adaptive robust control design for such a motion. Using numerous illustrations and tables, Adaptive Robust Control for Planar Snake Robots will interest researchers, practicing engineers and postgraduate students working in the field of robotics and control systems.
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