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Task-space separation principlefrom human postural synergies to bio-inspired motion planning for redundant manipulators /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Task-space separation principleby Paolo Tommasino.
Reminder of title:	from human postural synergies to bio-inspired motion planning for redundant manipulators /
Author:	Tommasino, Paolo.
Published:	Singapore :Springer Singapore :2019.
Description:	xvii, 105 p. :ill., digital ;24 cm.
Contained By:	Springer eBooks
Subject:	Kinematics.
Online resource:	http://dx.doi.org/10.1007/978-981-13-0353-1
ISBN:	9789811303531$q(electronic bk.)

Task-space separation principlefrom human postural synergies to bio-inspired motion planning for redundant manipulators /
Tommasino, Paolo.

Task-space separation principlefrom human postural synergies to bio-inspired motion planning for redundant manipulators /[electronic resource] :by Paolo Tommasino. - Singapore :Springer Singapore :2019. - xvii, 105 p. :ill., digital ;24 cm. - Springer theses,2190-5053. - Springer theses..

Introduction -- Background: Posture, Movement & Redundancy -- Task-Space Separation Principle: A Force Field Approach to Posture and Movement Planning for Redundant Manipulators -- Capturing Human-Like Postural Kinematic Synergies Via Non-Linear Inverse Optimization -- Assessment of Postural Muscular Synergies -- Effects of Mechanical Impedance (Joint Stiffness And Damping) on Wrist Movement -- Conclusion and Outlook.

This book addresses two fundamental issues of motor control for both humans and robots: kinematic redundancy and the posture/movement problem. It blends traditional robotic constrained-optimal approaches with neuroscientific and evidence-based principles, proposing a "Task-space Separation Principle," a novel scheme for planning both posture and movement in redundant manipulators. The proposed framework is first tested in simulation and then compared with experimental motor strategies displayed by humans during redundant pointing tasks. The book also shows how this model builds on and expands traditional formulations such as the Passive Motion Paradigm and the Equilibrium Point Theory. Lastly, breaking with the neuroscientific tradition of planar movements and linear(ized) kinematics, the theoretical formulation and experimental scenarios are set in the nonlinear space of 3D rotations which are essential for wrist motions, a somewhat neglected area despite its importance in daily tasks.

ISBN: 9789811303531$q(electronic bk.)

Standard No.: 10.1007/978-981-13-0353-1doiSubjects--Topical Terms:

190294
Kinematics.

LC Class. No.: QA841 / .T666 2019

Dewey Class. No.: 531.112

Task-space separation principlefrom human postural synergies to bio-inspired motion planning for redundant manipulators /
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505 0 $a Introduction -- Background: Posture, Movement & Redundancy -- Task-Space Separation Principle: A Force Field Approach to Posture and Movement Planning for Redundant Manipulators -- Capturing Human-Like Postural Kinematic Synergies Via Non-Linear Inverse Optimization -- Assessment of Postural Muscular Synergies -- Effects of Mechanical Impedance (Joint Stiffness And Damping) on Wrist Movement -- Conclusion and Outlook.
520 $a This book addresses two fundamental issues of motor control for both humans and robots: kinematic redundancy and the posture/movement problem. It blends traditional robotic constrained-optimal approaches with neuroscientific and evidence-based principles, proposing a "Task-space Separation Principle," a novel scheme for planning both posture and movement in redundant manipulators. The proposed framework is first tested in simulation and then compared with experimental motor strategies displayed by humans during redundant pointing tasks. The book also shows how this model builds on and expands traditional formulations such as the Passive Motion Paradigm and the Equilibrium Point Theory. Lastly, breaking with the neuroscientific tradition of planar movements and linear(ized) kinematics, the theoretical formulation and experimental scenarios are set in the nonlinear space of 3D rotations which are essential for wrist motions, a somewhat neglected area despite its importance in daily tasks.
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