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Biologically inspired control of hum...
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Khan, Said Ghani.
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Biologically inspired control of humanoid robot arms = robust and adaptive approaches /
紀錄類型:
書目-電子資源 : Monograph/item
正題名/作者:
Biologically inspired control of humanoid robot arms/ by Adam Spiers, Said Ghani Khan, Guido Herrmann.
其他題名:
robust and adaptive approaches /
作者:
Spiers, Adam.
其他作者:
Khan, Said Ghani.
出版者:
Cham :Springer International Publishing : : 2016.,
面頁冊數:
xix, 276 p. :ill. (some col.), digital ;24 cm.
內容註:
Introduction -- Part I Background on Humanoid Robots and Human Motion -- Humanoid Robots and Control -- Human Motion -- Part II Robot Control: Implementation -- Basic Operational Space Controller -- Sliding-Mode Task Controller Modification -- Implementing "Discomfort" for Smooth Joint Limits -- Sliding-Mode Optimal Controller -- Adaptive Compliance Control -- Part III Human Motion Recording for Task Motion Modelling and Robot Arm Control -- Human Motion Recording and Analysis -- Neural Network Motion Learning by Observation for Task Modelling and Control -- Appendices: Kinematics - Introduction -- Inverse Kinematics for BERUL2 -- Theoretical Summary of Adaptive Compliant Controller.
Contained By:
Springer eBooks
標題:
Robots - Control. -
電子資源:
http://dx.doi.org/10.1007/978-3-319-30160-0
ISBN:
9783319301600
Biologically inspired control of humanoid robot arms = robust and adaptive approaches /
Spiers, Adam.
Biologically inspired control of humanoid robot arms
robust and adaptive approaches /[electronic resource] :by Adam Spiers, Said Ghani Khan, Guido Herrmann. - Cham :Springer International Publishing :2016. - xix, 276 p. :ill. (some col.), digital ;24 cm.
Introduction -- Part I Background on Humanoid Robots and Human Motion -- Humanoid Robots and Control -- Human Motion -- Part II Robot Control: Implementation -- Basic Operational Space Controller -- Sliding-Mode Task Controller Modification -- Implementing "Discomfort" for Smooth Joint Limits -- Sliding-Mode Optimal Controller -- Adaptive Compliance Control -- Part III Human Motion Recording for Task Motion Modelling and Robot Arm Control -- Human Motion Recording and Analysis -- Neural Network Motion Learning by Observation for Task Modelling and Control -- Appendices: Kinematics - Introduction -- Inverse Kinematics for BERUL2 -- Theoretical Summary of Adaptive Compliant Controller.
This book investigates a biologically inspired method of robot arm control, developed with the objective of synthesising human-like motion dynamically, using nonlinear, robust and adaptive control techniques in practical robot systems. The control method caters to a rising interest in humanoid robots and the need for appropriate control schemes to match these systems. Unlike the classic kinematic schemes used in industrial manipulators, the dynamic approaches proposed here promote human-like motion with better exploitation of the robot's physical structure. This also benefits human-robot interaction. The control schemes proposed in this book are inspired by a wealth of human-motion literature that indicates the drivers of motion to be dynamic, model-based and optimal. Such considerations lend themselves nicely to achievement via nonlinear control techniques without the necessity for extensive and complex biological models. The operational-space method of robot control forms the basis of many of the techniques investigated in this book. The method includes attractive features such as the decoupling of motion into task and posture components. Various developments are made in each of these elements. Simple cost functions inspired by biomechanical "effort" and "discomfort" generate realistic posture motion. Sliding-mode techniques overcome robustness shortcomings for practical implementation. Arm compliance is achieved via a method of model-free adaptive control that also deals with actuator saturation via anti-windup compensation. A neural-network-centered learning-by-observation scheme generates new task motions, based on motion-capture data recorded from human volunteers. In other parts of the book, motion capture is used to test theories of human movement. All developed controllers are applied to the reaching motion of a humanoid robot arm and are demonstrated to be practically realisable. This book is designed to be of interest to those wishing to achieve dynamics-based human-like robot-arm motion in academic research, advanced study or certain industrial environments. The book provides motivations, extensive reviews, research results and detailed explanations. It is not only suited to practising control engineers, but also applicable for general roboticists who wish to develop control systems expertise in this area.
ISBN: 9783319301600
Standard No.: 10.1007/978-3-319-30160-0doiSubjects--Topical Terms:
893872
Robots
--Control.
LC Class. No.: TJ211.35
Dewey Class. No.: 629.8
Biologically inspired control of humanoid robot arms = robust and adaptive approaches /
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Introduction -- Part I Background on Humanoid Robots and Human Motion -- Humanoid Robots and Control -- Human Motion -- Part II Robot Control: Implementation -- Basic Operational Space Controller -- Sliding-Mode Task Controller Modification -- Implementing "Discomfort" for Smooth Joint Limits -- Sliding-Mode Optimal Controller -- Adaptive Compliance Control -- Part III Human Motion Recording for Task Motion Modelling and Robot Arm Control -- Human Motion Recording and Analysis -- Neural Network Motion Learning by Observation for Task Modelling and Control -- Appendices: Kinematics - Introduction -- Inverse Kinematics for BERUL2 -- Theoretical Summary of Adaptive Compliant Controller.
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This book investigates a biologically inspired method of robot arm control, developed with the objective of synthesising human-like motion dynamically, using nonlinear, robust and adaptive control techniques in practical robot systems. The control method caters to a rising interest in humanoid robots and the need for appropriate control schemes to match these systems. Unlike the classic kinematic schemes used in industrial manipulators, the dynamic approaches proposed here promote human-like motion with better exploitation of the robot's physical structure. This also benefits human-robot interaction. The control schemes proposed in this book are inspired by a wealth of human-motion literature that indicates the drivers of motion to be dynamic, model-based and optimal. Such considerations lend themselves nicely to achievement via nonlinear control techniques without the necessity for extensive and complex biological models. The operational-space method of robot control forms the basis of many of the techniques investigated in this book. The method includes attractive features such as the decoupling of motion into task and posture components. Various developments are made in each of these elements. Simple cost functions inspired by biomechanical "effort" and "discomfort" generate realistic posture motion. Sliding-mode techniques overcome robustness shortcomings for practical implementation. Arm compliance is achieved via a method of model-free adaptive control that also deals with actuator saturation via anti-windup compensation. A neural-network-centered learning-by-observation scheme generates new task motions, based on motion-capture data recorded from human volunteers. In other parts of the book, motion capture is used to test theories of human movement. All developed controllers are applied to the reaching motion of a humanoid robot arm and are demonstrated to be practically realisable. This book is designed to be of interest to those wishing to achieve dynamics-based human-like robot-arm motion in academic research, advanced study or certain industrial environments. The book provides motivations, extensive reviews, research results and detailed explanations. It is not only suited to practising control engineers, but also applicable for general roboticists who wish to develop control systems expertise in this area.
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