Dynamic Modeling and Boundary Control of Flexible Axially Moving System
Title | Dynamic Modeling and Boundary Control of Flexible Axially Moving System PDF eBook |
Author | Yu Liu |
Publisher | Springer Nature |
Pages | 249 |
Release | 2023-01-13 |
Genre | Technology & Engineering |
ISBN | 9811969418 |
The main objectives of the book are to introduce the design method of boundary control strategies for the axially moving structures to reduce their vibration. This book provides the reader with a thorough grounding in the boundary controller design. Our goal is to provide advanced boundary controller design methods and their stability analysis methods and offer simulation examples and MATLAB programs for each boundary control algorithm. For each chapter, several engineering application examples are given and the contents of each chapter in this book are independent, so that readers can just read their own needs. In this book, all the control algorithms and their programs are described separately and classified by the chapter name, which can be run successfully in MATLAB. The book can benefit researchers, engineers, and graduate students in the fields of PDE modeling and boundary vibration control of flexible structures.
PDE Modeling and Boundary Control for Flexible Mechanical System
Title | PDE Modeling and Boundary Control for Flexible Mechanical System PDF eBook |
Author | Zhijie Liu |
Publisher | Springer Nature |
Pages | 184 |
Release | 2020-03-16 |
Genre | Technology & Engineering |
ISBN | 981152596X |
This book provides a comprehensive review of fundamental issues in the dynamical modeling and vibration control design for several flexible mechanical systems, such as flexible satellites, flexible aerial refueling hoses, and flexible three-dimensional manipulators. Offering an authoritative reference guide to the dynamics and control of flexible mechanical systems, it equips readers to solve a host of problems concerning these systems. It provides not only a complete overview of flexible systems, but also a better understanding of the technical levels involved. The book is divided into ten chapters: Chapters 1 and 2 lay the foundations, while the remaining chapters explore several independent yet related topics in detail. The book’s final chapter presents conclusions and recommendations for future research. Given its scope, the book is intended for researchers, graduate students, and engineers whose work involves control systems, flexible mechanical systems, and related areas.
Distributed Parameter Modeling and Boundary Control of Flexible Manipulators
Title | Distributed Parameter Modeling and Boundary Control of Flexible Manipulators PDF eBook |
Author | Jinkun Liu |
Publisher | Springer |
Pages | 158 |
Release | 2018-04-16 |
Genre | Technology & Engineering |
ISBN | 9811083002 |
The book investigates fundamental issues in flexible manipulator systems, including distributed parameter modeling and boundary controller design. It presents theoretical explorations of several fundamental problems concerning the dynamics and control of these systems. By integrating fresh concepts and results to form a systematic approach to control, it also provides a basic theoretical framework. In turn, the book offers a comprehensive treatment of flexible manipulator systems, addressing topics ranging from related distributed parameter modeling and advanced boundary controller design for these systems with input constraint, to active control with output constraint. In brief, the book addresses dynamical analysis and control design for flexible manipulator systems. Though primarily intended for researchers and engineers in the control system and mechanical engineering community, it can also serve as supplemental reading on the modeling and control of flexible manipulator systems at the postgraduate level.
Boundary Control of Flexible Three-Dimensional Euler–Bernoulli Beams
Title | Boundary Control of Flexible Three-Dimensional Euler–Bernoulli Beams PDF eBook |
Author | Ning Ji |
Publisher | Springer Nature |
Pages | 235 |
Release | 2022-03-24 |
Genre | Technology & Engineering |
ISBN | 9811900795 |
This book focuses on vibration suppression of flexible three-dimensional Euler–Bernoulli beams modeled by PDEs. Boundary control strategy and several control methods are proposed to stabilize the closed-loop system. Besides, some common engineering problems such as input constraint and output constraint are also considered in the control scheme design. This book offers a comprehensive introduction of the modeling process, controller design, stability analysis and numerical simulation. The detailed MATLAB codes in each chapter are also provided, which can make readers better understand the control flow of the system. This book is mainly targeted for researchers, senior undergraduate students and postgraduate students in the field of control theory and control engineering.
Vibration Control Methods of Mechanical Distributed Parameter Systems
Title | Vibration Control Methods of Mechanical Distributed Parameter Systems PDF eBook |
Author | Xueyan Xing |
Publisher | Springer Nature |
Pages | 264 |
Release | 2021-05-18 |
Genre | Technology & Engineering |
ISBN | 9811615322 |
This book aims at investigating PDE modeling and vibration control of some typical mechanical distributed parameter systems. Several control methods are proposed to realize stabilization of the closed-loop system with the help of mathematical tools and stability analysis methods. Besides, some common engineering problems, such as input and output constraints, are also involved in the control design. This book offers a comprehensive introduction of mechanical distributed parameter systems, including PDE modeling, controller design and stability analysis. The related fundamental mathematical tools and analytical approaches involving in the PDE modeling and controller are also provided, which broadens its reach to readers.
Control of Axially Moving Systems
Title | Control of Axially Moving Systems PDF eBook |
Author | Keum-Shik Hong |
Publisher | |
Pages | 0 |
Release | 2022 |
Genre | |
ISBN | 9789811629167 |
This book provides a comprehensive guideline on dynamic analysis and vibration control of axially moving systems. First, the mathematical models of various axially moving systems describing the string, beam, belt, and plate models are developed. Accordingly, dynamical issues such as the equilibrium configuration, critical velocity, stability, bifurcation, and further chaotic dynamics are analyzed. Second, this book covers the design of the control schemes based on the hitherto control strategies for axially moving systems: feedback control using the transfer function, variable structure control, control by regulating the axial velocity, wave cancellation approach, boundary control using the Lyapunov method, adaptive control, and hybrid control methods. Finally, according to the contents discussed in the book, specific aspects are outlined for initiating future research endeavors to be undertaken concerning axially moving systems. This book is useful to graduate students and researchers in industrial sectors such as continuous manufacturing systems, transport systems, power transmission systems, and lifting systems not to mention in academia. .
Lyapunov-Based Control of Mechanical Systems
Title | Lyapunov-Based Control of Mechanical Systems PDF eBook |
Author | Marcio S. de Queiroz |
Publisher | Springer Science & Business Media |
Pages | 321 |
Release | 2012-12-06 |
Genre | Technology & Engineering |
ISBN | 1461213525 |
The design of nonlinear controllers for mechanical systems has been an ex tremely active area of research in the last two decades. From a theoretical point of view, this attention can be attributed to their interesting dynamic behavior, which makes them suitable benchmarks for nonlinear control the oreticians. On the other hand, recent technological advances have produced many real-world engineering applications that require the automatic con trol of mechanical systems. the mechanism for de Often, Lyapunov-based techniques are utilized as veloping different nonlinear control structures for mechanical systems. The allure of the Lyapunov-based framework for mechanical system control de sign can most likely be assigned to the fact that Lyapunov function candi dates can often be crafted from physical insight into the mechanics of the system. That is, despite the nonlinearities, couplings, and/or the flexible effects associated with the system, Lyapunov-based techniques can often be used to analyze the stability of the closed-loop system by using an energy like function as the Lyapunov function candidate. In practice, the design procedure often tends to be an iterative process that results in the death of many trees. That is, the controller and energy-like function are often constructed in concert to foster an advantageous stability property and/or robustness property. Fortunately, over the last 15 years, many system the ory and control researchers have labored in this area to produce various design tools that can be applied in a variety of situations.