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Self-oscillations in dynamic systems[electronic resource] :a new methodology via two-relay controllers /

紀錄類型:	書目-語言資料,印刷品 : Monograph/item
杜威分類號:	531.32
書名/作者:	Self-oscillations in dynamic systems : a new methodology via two-relay controllers // by Luis T. Aguilar ... [et al.].
其他作者:	Aguilar, Luis T.
出版者:	Cham : : Springer International Publishing :, 2015.
面頁冊數:	xiv, 158 p. : : ill., digital ;; 24 cm.
Contained By:	Springer eBooks
標題:	Oscillations.
標題:	Relay control systems.
標題:	Mathematics.
標題:	Systems Theory, Control.
標題:	Control.
標題:	Engineering Design.
ISBN:	9783319233031
ISBN:	9783319233024
內容註:	Introduction -- Part I: Design of Self-Oscillations using Two-Relay Controller -- Describing Function-Based Design of TRC for Generation of Self-Oscillation -- Poincare Maps Based Design -- Self-Oscillation via Locus of a Perturbed Relay System Design (LPRS) -- Part II: Robustification of the Self-Oscillation Generated by Two-Relay Controller -- Robustification of the Self-Oscillation via Sliding Modes Tracking Controllers -- Output-Based Robust Generation of Self-Oscillations -- Part III: Applications -- Generating Self-Oscillations in Furuta Pendulum -- Three Link Serial Structure Underactuated Robot -- Generation of Self-Oscillations in Systems with Double Integrator -- Fixed-Phase Loop (FPL) -- Appendix A: Describing Function -- Appendix B: The Locus of a Perturbed Relay System (LPRS) -- Appendix C: Poincare Map -- Appendix D: Output Feedback -- References -- Index.
摘要、提要註:	This monograph presents a simple and efficient two-relay control algorithm for generation of self-excited oscillations of a desired amplitude and frequency in dynamic systems. Developed by the authors, the two-relay controller consists of two relays switched by the feedback received from a linear or nonlinear system, and represents a new approach to the self-generation of periodic motions in underactuated mechanical systems. The first part of the book explains the design procedures for two-relay control using three different methodologies - the describing-function method, Poincare maps, and the locus-of-a perturbed-relay-system method - and concludes with stability analysis of designed periodic oscillations. Two methods to ensure the robustness of two-relay control algorithms are explored in the second part, one based on the combination of the high-order sliding mode controller and backstepping, and the other on higher-order sliding-modes-based reconstruction of uncertainties and their compensation where Lyapunov-based stability analysis of tracking error is used. Finally, the third part illustrates applications of self-oscillation generation by a two-relay control with a Furuta pendulum, wheel pendulum, 3-DOF underactuated robot, 3-DOF laboratory helicopter, and fixed-phase electronic circuits. Self-Oscillations in Dynamic Systems will appeal to engineers, researchers, and graduate students working on the tracking and self-generation of periodic motion of electromechanical systems, including non-minimum-phase systems. It will also be of interest to mathematicians working on analysis of periodic solutions.
電子資源:	http://dx.doi.org/10.1007/978-3-319-23303-1

Self-oscillations in dynamic systems[electronic resource] :a new methodology via two-relay controllers /
Self-oscillations in dynamic systemsa new methodology via two-relay controllers /[electronic resource] :by Luis T. Aguilar ... [et al.]. - Cham :Springer International Publishing :2015. - xiv, 158 p. :ill., digital ;24 cm. - Systems & control: foundations & applications,2324-9749. - Systems & control: foundations & applications..

Introduction -- Part I: Design of Self-Oscillations using Two-Relay Controller -- Describing Function-Based Design of TRC for Generation of Self-Oscillation -- Poincare Maps Based Design -- Self-Oscillation via Locus of a Perturbed Relay System Design (LPRS) -- Part II: Robustification of the Self-Oscillation Generated by Two-Relay Controller -- Robustification of the Self-Oscillation via Sliding Modes Tracking Controllers -- Output-Based Robust Generation of Self-Oscillations -- Part III: Applications -- Generating Self-Oscillations in Furuta Pendulum -- Three Link Serial Structure Underactuated Robot -- Generation of Self-Oscillations in Systems with Double Integrator -- Fixed-Phase Loop (FPL) -- Appendix A: Describing Function -- Appendix B: The Locus of a Perturbed Relay System (LPRS) -- Appendix C: Poincare Map -- Appendix D: Output Feedback -- References -- Index.

This monograph presents a simple and efficient two-relay control algorithm for generation of self-excited oscillations of a desired amplitude and frequency in dynamic systems. Developed by the authors, the two-relay controller consists of two relays switched by the feedback received from a linear or nonlinear system, and represents a new approach to the self-generation of periodic motions in underactuated mechanical systems. The first part of the book explains the design procedures for two-relay control using three different methodologies - the describing-function method, Poincare maps, and the locus-of-a perturbed-relay-system method - and concludes with stability analysis of designed periodic oscillations. Two methods to ensure the robustness of two-relay control algorithms are explored in the second part, one based on the combination of the high-order sliding mode controller and backstepping, and the other on higher-order sliding-modes-based reconstruction of uncertainties and their compensation where Lyapunov-based stability analysis of tracking error is used. Finally, the third part illustrates applications of self-oscillation generation by a two-relay control with a Furuta pendulum, wheel pendulum, 3-DOF underactuated robot, 3-DOF laboratory helicopter, and fixed-phase electronic circuits. Self-Oscillations in Dynamic Systems will appeal to engineers, researchers, and graduate students working on the tracking and self-generation of periodic motion of electromechanical systems, including non-minimum-phase systems. It will also be of interest to mathematicians working on analysis of periodic solutions.

ISBN: 9783319233031

Standard No.: 10.1007/978-3-319-23303-1doiSubjects--Topical Terms:

342230
Oscillations.

LC Class. No.: QA865 / .A48 2015

Dewey Class. No.: 531.32

Self-oscillations in dynamic systems[electronic resource] :a new methodology via two-relay controllers /
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505 0 $a Introduction -- Part I: Design of Self-Oscillations using Two-Relay Controller -- Describing Function-Based Design of TRC for Generation of Self-Oscillation -- Poincare Maps Based Design -- Self-Oscillation via Locus of a Perturbed Relay System Design (LPRS) -- Part II: Robustification of the Self-Oscillation Generated by Two-Relay Controller -- Robustification of the Self-Oscillation via Sliding Modes Tracking Controllers -- Output-Based Robust Generation of Self-Oscillations -- Part III: Applications -- Generating Self-Oscillations in Furuta Pendulum -- Three Link Serial Structure Underactuated Robot -- Generation of Self-Oscillations in Systems with Double Integrator -- Fixed-Phase Loop (FPL) -- Appendix A: Describing Function -- Appendix B: The Locus of a Perturbed Relay System (LPRS) -- Appendix C: Poincare Map -- Appendix D: Output Feedback -- References -- Index.
520 $a This monograph presents a simple and efficient two-relay control algorithm for generation of self-excited oscillations of a desired amplitude and frequency in dynamic systems. Developed by the authors, the two-relay controller consists of two relays switched by the feedback received from a linear or nonlinear system, and represents a new approach to the self-generation of periodic motions in underactuated mechanical systems. The first part of the book explains the design procedures for two-relay control using three different methodologies - the describing-function method, Poincare maps, and the locus-of-a perturbed-relay-system method - and concludes with stability analysis of designed periodic oscillations. Two methods to ensure the robustness of two-relay control algorithms are explored in the second part, one based on the combination of the high-order sliding mode controller and backstepping, and the other on higher-order sliding-modes-based reconstruction of uncertainties and their compensation where Lyapunov-based stability analysis of tracking error is used. Finally, the third part illustrates applications of self-oscillation generation by a two-relay control with a Furuta pendulum, wheel pendulum, 3-DOF underactuated robot, 3-DOF laboratory helicopter, and fixed-phase electronic circuits. Self-Oscillations in Dynamic Systems will appeal to engineers, researchers, and graduate students working on the tracking and self-generation of periodic motion of electromechanical systems, including non-minimum-phase systems. It will also be of interest to mathematicians working on analysis of periodic solutions.
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