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Stiffness modeling of parallel robots

Klimchik, Alexandr.

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Stiffness modeling of parallel robots

Record Type:	Electronic resources : Monograph/item
Title/Author:	Stiffness modeling of parallel robots/ by Alexandr Klimchik, Anatol Pashkevich, Damien Chablat.
Author:	Klimchik, Alexandr.
other author:	Pashkevich, Anatol.
Published:	Cham :Springer Nature Switzerland : : 2025.,
Description:	xii, 232 p. :ill. (chiefly color), digital ;24 cm.
[NT 15003449]:	Introduction -- 1 Introduction to stiffness modelling of robotic manipulators -- 2 State of the art of manipulator stiffness modelling -- 3 Finite Element Analysis in manipulator stiffness modelling -- 4 Matrix Structural Analysis and its application in robotics -- 5 Virtual Joint Modeling: a trade-off between the complexity and accuracy -- 6 Non-linear stiffness models for robotic manipulators under the loading -- 7 Evaluation of manipulator stiffness model parameters -- 8 Stiffness modelling of typical manipulator linkages and their assemblies -- Conclusions -- References.
Contained By:	Springer Nature eBook
Subject:	Parallel robots. -
Online resource:	https://doi.org/10.1007/978-3-031-76320-5
ISBN:	9783031763205

Stiffness modeling of parallel robots
Klimchik, Alexandr.

Stiffness modeling of parallel robots[electronic resource] /by Alexandr Klimchik, Anatol Pashkevich, Damien Chablat. - Cham :Springer Nature Switzerland :2025. - xii, 232 p. :ill. (chiefly color), digital ;24 cm. - Parallel robots: theory and applications,2524-6240. - Parallel robots: theory and applications..

Introduction -- 1 Introduction to stiffness modelling of robotic manipulators -- 2 State of the art of manipulator stiffness modelling -- 3 Finite Element Analysis in manipulator stiffness modelling -- 4 Matrix Structural Analysis and its application in robotics -- 5 Virtual Joint Modeling: a trade-off between the complexity and accuracy -- 6 Non-linear stiffness models for robotic manipulators under the loading -- 7 Evaluation of manipulator stiffness model parameters -- 8 Stiffness modelling of typical manipulator linkages and their assemblies -- Conclusions -- References.

The book focuses on the stiffness modeling of serial and parallel manipulators It presents fundamentals and enhancements for Virtual Joint Modelling (VJM), Matrix Structural Analysis (MSA) and Finite Element Analysis (FEA). The described techniques consider complex kinematics with numerous passive joints, different types of loadings, including essential loadings leading to critical changes in the manipulator configurations, linear and non-linear stiffness analysis, conventional and non-linear compliance error compensation and stiffness parameters estimation from virtual experiments. Presented enhancement for the VJM integrates in the stiffness analysis external force/torque applied to the end-point, internal preloading in the joints, and auxiliary forces/torques applied to intermediate points. The proposed technique includes computing an equilibrium configuration corresponding to the external/internal loading and allows obtaining the full-scale non-linear force-deflection relation for any given workspace point. This enables the designer to evaluate critical forces that may provoke non-linear behaviours of the manipulators, such as sudden failure due to elastic instability (buckling). The presented enhancement to the MSA allows users to carry out stiffness analysis for serial underactuated structures and over-constrained ones with multiple closed loops. To increase the model accuracy of the VJM and MSA techniques a dedicated FEA-based stiffness model parameters identification technique is introduced in the book. It is based on the virtual experiments in the CAD/CAE environment and allows the VJM and MSA to achieve accuracy comparable with FEA, but it essentially reduces the computational effort, eliminating repetitive re-meshing through the workspace. All considered stiffness modelling techniques, kinematic particularities and loading conditions are illustrated with practical examples and related analysis.

ISBN: 9783031763205

Standard No.: 10.1007/978-3-031-76320-5doiSubjects--Topical Terms:

1002605
Parallel robots.

LC Class. No.: TJ211.4152

Dewey Class. No.: 629.8933

Stiffness modeling of parallel robots
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100 1 $a Klimchik, Alexandr. $3 3784007
245 1 0 $a Stiffness modeling of parallel robots $h [electronic resource] / $c by Alexandr Klimchik, Anatol Pashkevich, Damien Chablat.
260 $a Cham : $b Springer Nature Switzerland : $b Imprint: Springer, $c 2025.
300 $a xii, 232 p. : $b ill. (chiefly color), digital ; $c 24 cm.
490 1 $a Parallel robots: theory and applications, $x 2524-6240
505 0 $a Introduction -- 1 Introduction to stiffness modelling of robotic manipulators -- 2 State of the art of manipulator stiffness modelling -- 3 Finite Element Analysis in manipulator stiffness modelling -- 4 Matrix Structural Analysis and its application in robotics -- 5 Virtual Joint Modeling: a trade-off between the complexity and accuracy -- 6 Non-linear stiffness models for robotic manipulators under the loading -- 7 Evaluation of manipulator stiffness model parameters -- 8 Stiffness modelling of typical manipulator linkages and their assemblies -- Conclusions -- References.
520 $a The book focuses on the stiffness modeling of serial and parallel manipulators It presents fundamentals and enhancements for Virtual Joint Modelling (VJM), Matrix Structural Analysis (MSA) and Finite Element Analysis (FEA). The described techniques consider complex kinematics with numerous passive joints, different types of loadings, including essential loadings leading to critical changes in the manipulator configurations, linear and non-linear stiffness analysis, conventional and non-linear compliance error compensation and stiffness parameters estimation from virtual experiments. Presented enhancement for the VJM integrates in the stiffness analysis external force/torque applied to the end-point, internal preloading in the joints, and auxiliary forces/torques applied to intermediate points. The proposed technique includes computing an equilibrium configuration corresponding to the external/internal loading and allows obtaining the full-scale non-linear force-deflection relation for any given workspace point. This enables the designer to evaluate critical forces that may provoke non-linear behaviours of the manipulators, such as sudden failure due to elastic instability (buckling). The presented enhancement to the MSA allows users to carry out stiffness analysis for serial underactuated structures and over-constrained ones with multiple closed loops. To increase the model accuracy of the VJM and MSA techniques a dedicated FEA-based stiffness model parameters identification technique is introduced in the book. It is based on the virtual experiments in the CAD/CAE environment and allows the VJM and MSA to achieve accuracy comparable with FEA, but it essentially reduces the computational effort, eliminating repetitive re-meshing through the workspace. All considered stiffness modelling techniques, kinematic particularities and loading conditions are illustrated with practical examples and related analysis.
650 0 $a Parallel robots. $3 1002605
650 0 $a Manipulators (Mechanism) $3 651471
650 1 4 $a Control, Robotics, Automation. $3 3592500
650 2 4 $a Mechanical Engineering. $3 891038
650 2 4 $a Civil Engineering. $3 891037
700 1 $a Pashkevich, Anatol. $3 3784008
700 1 $a Chablat, Damien. $3 3784009
710 2 $a SpringerLink (Online service) $3 836513
773 0 $t Springer Nature eBook
830 0 $a Parallel robots: theory and applications. $3 3386666
856 4 0 $u https://doi.org/10.1007/978-3-031-76320-5
950 $a Intelligent Technologies and Robotics (SpringerNature-42732)