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Singularities of Robot Mechanisms [electronic resource] : Numerical Computation and Avoidance Path Planning / by Oriol Bohigas, Montserrat Manubens, Lluís Ros.

By: Bohigas, Oriol [author.].
Contributor(s): Manubens, Montserrat [author.] | Ros, Lluís [author.] | SpringerLink (Online service).
Material type: materialTypeLabelBookSeries: Mechanisms and Machine Science: 41Publisher: Cham : Springer International Publishing : Imprint: Springer, 2017Edition: 1st ed. 2017.Description: XXI, 184 p. 93 illus., 64 illus. in color. online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 9783319329222.Subject(s): Control engineering | Robotics | Automation | Multibody systems | Vibration | Mechanics, Applied | Numerical analysis | Engineering mathematics | Engineering—Data processing | Control, Robotics, Automation | Multibody Systems and Mechanical Vibrations | Numerical Analysis | Mathematical and Computational Engineering ApplicationsAdditional physical formats: Printed edition:: No title; Printed edition:: No title; Printed edition:: No titleDDC classification: 629.8 Online resources: Click here to access online
Contents:
Preface -- Notation -- List of Figures -- 1 Introduction -- 1.1 Historical Context -- 1.2 Assumptions and Scope -- 1.3 Reader’s Guide -- 2 Singularity Types -- 2.1 Forward and Inverse Singularities -- 2.2 A Geometric Interpretation of Singularities -- 2.3 Lower-level Singularity Types -- 2.4 A Simple Mechanism with All Singularities -- 3 Numerical Computation of Singularity Sets -- 3.1 A Suitable Approach -- 3.2 Formulating the Equations of the Singularity Set -- 3.3 Isolating the Singularity Set -- 3.4 Visualising the Singularity Sets -- 3.5 Case Studies -- 4 Workspace Determination -- 4.1 The Need of a General Method -- 4.2 The Workspace and its Boundaries -- 4.3 Issues of Continuation Methods -- 4.4 Exploiting the Branch-and-Prune Machinery -- 4.5 Case Studies -- 5 Singularity-free Path Planning -- 5.1 Related Work -- 5.2 Formulating the Singularity-free C-space -- 5.3 Exploring the Singularity-free C-space -- 5.4 Case Studies -- 6 Planning with Further Constraints -- 6.1 Wrench-Feasibility Constraints -- 6.2 The Planning Problem -- 6.3 Proofs of the Properties -- 6.4 Case Studies -- 6.5 Details about the Wrench Ellipsoid -- 6.6 Extensions -- 7 Conclusions -- 7.1 Summary of Results -- 7.2 Future Research Directions -- References -- Index -- Author Index. .
In: Springer Nature eBookSummary: This book presents the singular configurations associated with a robot mechanism, together with robust methods for their computation, interpretation, and avoidance path planning. Having such methods is essential as singularities generally pose problems to the normal operation of a robot, but also determine the workspaces and motion impediments of its underlying mechanical structure. A distinctive feature of this volume is that the methods are applicable to nonredundant mechanisms of general architecture, defined by planar or spatial kinematic chains interconnected in an arbitrary way. Moreover, singularities are interpreted as silhouettes of the configuration space when seen from the input or output spaces. This leads to a powerful image that explains the consequences of traversing singular configurations, and all the rich information that can be extracted from them. The problems are solved by means of effective branch-and-prune and numerical continuation methods that are of independent interest in themselves. The theory can be put into practice as well: a companion web page gives open access to implementations of the algorithms and the corresponding input files. Using them, the reader can gain hands-on experience on the topic, or analyse new mechanisms beyond those examined in the text. Overall, the book contributes new tools for robot design, and constitutes a single reference source of knowledge that is otherwise dispersed in the literature. .
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Preface -- Notation -- List of Figures -- 1 Introduction -- 1.1 Historical Context -- 1.2 Assumptions and Scope -- 1.3 Reader’s Guide -- 2 Singularity Types -- 2.1 Forward and Inverse Singularities -- 2.2 A Geometric Interpretation of Singularities -- 2.3 Lower-level Singularity Types -- 2.4 A Simple Mechanism with All Singularities -- 3 Numerical Computation of Singularity Sets -- 3.1 A Suitable Approach -- 3.2 Formulating the Equations of the Singularity Set -- 3.3 Isolating the Singularity Set -- 3.4 Visualising the Singularity Sets -- 3.5 Case Studies -- 4 Workspace Determination -- 4.1 The Need of a General Method -- 4.2 The Workspace and its Boundaries -- 4.3 Issues of Continuation Methods -- 4.4 Exploiting the Branch-and-Prune Machinery -- 4.5 Case Studies -- 5 Singularity-free Path Planning -- 5.1 Related Work -- 5.2 Formulating the Singularity-free C-space -- 5.3 Exploring the Singularity-free C-space -- 5.4 Case Studies -- 6 Planning with Further Constraints -- 6.1 Wrench-Feasibility Constraints -- 6.2 The Planning Problem -- 6.3 Proofs of the Properties -- 6.4 Case Studies -- 6.5 Details about the Wrench Ellipsoid -- 6.6 Extensions -- 7 Conclusions -- 7.1 Summary of Results -- 7.2 Future Research Directions -- References -- Index -- Author Index. .

This book presents the singular configurations associated with a robot mechanism, together with robust methods for their computation, interpretation, and avoidance path planning. Having such methods is essential as singularities generally pose problems to the normal operation of a robot, but also determine the workspaces and motion impediments of its underlying mechanical structure. A distinctive feature of this volume is that the methods are applicable to nonredundant mechanisms of general architecture, defined by planar or spatial kinematic chains interconnected in an arbitrary way. Moreover, singularities are interpreted as silhouettes of the configuration space when seen from the input or output spaces. This leads to a powerful image that explains the consequences of traversing singular configurations, and all the rich information that can be extracted from them. The problems are solved by means of effective branch-and-prune and numerical continuation methods that are of independent interest in themselves. The theory can be put into practice as well: a companion web page gives open access to implementations of the algorithms and the corresponding input files. Using them, the reader can gain hands-on experience on the topic, or analyse new mechanisms beyond those examined in the text. Overall, the book contributes new tools for robot design, and constitutes a single reference source of knowledge that is otherwise dispersed in the literature. .

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