Active Control Of Smart Structures Using Distributed Piezoelectric Transducers
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Structronic Systems: Smart Structures, Devices And Systems (In 2 Parts)
| Author | : Ardeshir Guran |
| Publisher | : World Scientific |
| Total Pages | : 881 |
| Release | : 1998-04-04 |
| Genre | : Mathematics |
| ISBN | : 9814578932 |
This book is concerned with electrostructural systems, particularly the interaction between the control of the structural and electrical (electronic) components. Structronics is a new emerging area with many potential applications in the design of high-performance structures, adaptive structures, high-precision systems, and micro-systems. As structures are increasingly being controlled by electronics, the problems of structural engineering can be separated less and less from those of electronic engineering and control engineering. This graduate-level book fills a gap in the literature by considering these problems while giving an overview of the current state of analysis, modelling and control for structronic systems. It is a coherent compendium written by leading experts in this new research area and gives readers a sophisticated toolbox that will allow them to tackle the modelling and control of smart structures. The inclusion of an extensive, up-to-date bibliography and index makes this volume an invaluable standard for professional reference.Because of the large number of contributions to the present volume, it has been subdivided into two parts, of which this is Part I. This book will be of interest to engineers, materials scientists, physicists and applied mathematicians.The synergistic integration of active (smart) materials, structures, sensors, actuators, and control electronics has redefined the concept of structures from a conventional passive elastic system to an active (life-like) structronic (structure + electronic) system with inherent self-sensing, diagnosis, and control capabilities. Because of its multi-disciplinary nature, the development of structronic systems has attracted researchers and scientists from many disciplines, such as structures, materials, control, electronics, mathematics, manufacturing, electromechanics, and mechanics. In practical applications, this new structronic system can be used as a component of high-performance machines or structural systems, or be an integrated structure itself performing designated function(s).Most common active (smart) materials, such as piezoelectrics, shape-memory alloys, electro- and magneto-strictive materials, and polyelectrolyte gels have been reviewed in Part I. Application examples are also provided and research issues reported on. While the first part focuses primarily on materials and structures, Part II emphasizes control applications and intelligent systems. With the information provided in this two-volume book, scientists and researchers can easily grasp the state of the art of smart materials and structronic systems, and are ready to pursue their own research and development endeavors.
Vibration Control of Active Structures
| Author | : A. Preumont |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 376 |
| Release | : 2006-04-11 |
| Genre | : Technology & Engineering |
| ISBN | : 0306484226 |
My objective in writing this book was to cross the bridge between the structural dynamics and control communities, while providing an overview of the potential of SMART materials for sensing and actuating purposes in active vibration c- trol. I wanted to keep it relatively simple and focused on systems which worked. This resulted in the following: (i) I restricted the text to fundamental concepts and left aside most advanced ones (i.e. robust control) whose usefulness had not yet clearly been established for the application at hand. (ii) I promoted the use of collocated actuator/sensor pairs whose potential, I thought, was strongly underestimated by the control community. (iii) I emphasized control laws with guaranteed stability for active damping (the wide-ranging applications of the IFF are particularly impressive). (iv) I tried to explain why an accurate pred- tion of the transmission zeros (usually called anti-resonances by the structural dynamicists) is so important in evaluating the performance of a control system. (v) I emphasized the fact that the open-loop zeros are more difficult to predict than the poles, and that they could be strongly influenced by the model trun- tion (high frequency dynamics) or by local effects (such as membrane strains in piezoelectric shells), especially for nearly collocated distributed actuator/sensor pairs; this effect alone explains many disappointments in active control systems.
Modeling, Control and Implementation of Smart Structures
| Author | : B. Bandyopadhyay |
| Publisher | : Springer |
| Total Pages | : 282 |
| Release | : 2007-04-22 |
| Genre | : Technology & Engineering |
| ISBN | : 3540483942 |
This book presents an overview over smart structures - its concepts, its active involvement in the vibration control, their applications and the extensive research work done.
Structronic Systems: Materials and structures
| Author | : Ardshir Guran |
| Publisher | : World Scientific |
| Total Pages | : 418 |
| Release | : 1998 |
| Genre | : Technology & Engineering |
| ISBN | : 9789810229559 |
Pt. 1. Materials and structures. ch. 1. The piezoelectric vibration absorber systems / Joseph Hollkamp and Thomas Starchville, Jr. -- ch. 2. Self-sensing control applied to smart material systems / Ephrahim Garcia and Lowell Dale Jones -- ch. 3. An introduction to active constrained layer damping treatments / Steve Shen -- ch. 4. Static and dynamic behavior of adaptive wings carrying externally mounted stores / Liviu Librescu and Ohseop Song -- ch. 5. Adaptive design and active composite material systems / Junji Tani and Jinhao Qiu -- ch. 6. Microelectromechanics and functionality of segmented cylindrical transducers / Horn-Sen Tzou, Yumin Bao and V.B. Venkayya -- ch. 7. Thermomechanical modeling of shape memory alloys and composites / Dimitris Lagoudas [und weitere] -- ch. 8. Active-passive hybrid structural vibration controls via piezoelectrical networks / Kon-Well Wang and Steven Kahn -- ch. 9. On-line structural damage detection / Herman Shen -- ch. 10. On material degradation and failure of piezoelectric ceramics / Horacio Sosa -- pt. 2. Systems and control. ch. 11. Near-minimum-time slewing and vibration control of smart structures / Youdan Kim, Jin-Young Suk and John L. Junkins -- ch. 12. Active polyelectrolyte gels as electrically controllable artificial muscles and intelligent network structures / Mohsen Shahinpoor -- ch. 13. Active dynamic absorbers - theory and application / Sanjiv Tewani [und weitere] -- ch. 14. Active vibration sink for flexible structures / Chan-Shin Chou -- ch. 15. Distributed modal-space control and estimation with electroelastic applications / Hayrani Oz -- ch. 16. Markov parameters in system identification: old and new concepts / Minh Q. Phan, Jer-Nan Juang and Richard E. Longman -- ch. 17. Effect of system non-linearities on the modified model reference adaptive control scheme / Hemant M. Sardar and Mehdi Ahmadian -- ch. 18. Extending teach-repeat to nonholonomic robots / Steven B. Skaar and John-David Yoder -- ch. 19. Dynamic analysis and active vibration control of chain drive systems / Chin-An Tan [und weitere] -- ch. 20. Basic concepts of fault-tolerant computing design / Chouki Aktouf, Arde Guran and Oum-El-Kheir Benkahla
Piezoelectric Transducers for Vibration Control and Damping
| Author | : S.O. Reza Moheimani |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 282 |
| Release | : 2006-06-29 |
| Genre | : Technology & Engineering |
| ISBN | : 1846283329 |
This book presents recent developments in vibration control systems that employ embedded piezoelectric sensors and actuators, reviewing ways in which active vibration control systems can be designed for piezoelectric laminated structures, paying distinct attention to how such control systems can be implemented in real time. Includes numerous examples and experimental results obtained from laboratory-scale apparatus, with details of how similar setups can be built.
Dynamic Modeling and Active Vibration Control of Structures
| Author | : Moon Kyu Kwak |
| Publisher | : Springer Nature |
| Total Pages | : 377 |
| Release | : 2021-08-14 |
| Genre | : Technology & Engineering |
| ISBN | : 9402421203 |
This book describes the active vibration control techniques which have been developed to suppress excessive vibrations of structures. It covers the fundamental principles of active control methods and their applications and shows how active vibration control techniques have replaced traditional passive vibration control. The book includes coverage of dynamic modeling, control design, sensing methodology, actuator mechanism and electronic circuit design, and the implementation of control algorithms via digital controllers. An in-depth approach has been taken to describe the modeling of structures for control design, the development of control algorithms suitable for structural control, and the implementation of control algorithms by means of Simulink block diagrams or C language. Details of currently available actuators and sensors and electronic circuits for signal conditioning and filtering have been provided based on the most recent advances in the field. The book is used as a textbook for students and a reference for researchers who are interested in studying cutting-edge technology. It will be a valuable resource for academic and industrial researchers and professionals involved in the design and manufacture of active vibration controllers for structures in a wide variety of fields and industries including the automotive, rail, aerospace, and civil engineering sectors.
Piezoelectric Shells
| Author | : H.S. Tzou |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 493 |
| Release | : 2012-12-06 |
| Genre | : Technology & Engineering |
| ISBN | : 9401117837 |
Exploiting new advanced structures and electromechanical systems, e. g. , adaptive structures, high-precision systems, micro electromechanical systems, distributed sensors/actuators, precision manipulation and controls, etc. , has been becoming one of the mainstream research and development activities (structure & motion) in recent years. These new systems and devices could bring a new technological revolution in modern industries and further, directly or indirectly, impact human life. In the search for and research in innovative technologies, it is proved that piezoelectric materials are very versatile in both sensor and actuator applications. Consequently, piezoelectric technology has been widely applied to a large number of industrial applications and devices, varying from thin-film micro sensors/actuators to large space structures in addition to those relatively conventional applications, e. g. , sensors, actuators, hydrophones, precision manipulators, mobile robots, micro motors, etc. There have been a few books on piezoelectricity published in the past; however, a unified presentation of piezoelectric shells and distributed senSing/control applications is still lacking. This book is intended to fill the gap and to pro~de practising engineers and researchers with an introduction to advanced piezoelectric shell theories and distributed sensor/actuator technologies in structural identification and control. This book represents a collection of the author's recent research and development on piezoelectric shells and related applications to distributed measurement and control of continuaj it reflects six best-paper awards, including [ xviii] • Contents. two ASME Best-Paper Awards in recent years.
Dynamics of Advanced Materials and Smart Structures
| Author | : Kazumi Watanabe |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 501 |
| Release | : 2013-04-17 |
| Genre | : Technology & Engineering |
| ISBN | : 940170371X |
Two key words for mechanical engineering in the future are Micro and Intelligence. It is weIl known that the leadership in the intelligence technology is a marter of vital importance for the future status of industrial society, and thus national research projects for intelligent materials, structures and machines have started not only in advanced countries, but also in developing countries. Materials and structures which have self-sensing, diagnosis and actuating systems, are called intelligent or smart, and are of growing research interest in the world. In this situation, the IUT AM symposium on Dynamics 0/ Advanced Materials and Smart Structures was a timely one. Smart materials and structures are those equipped with sensors and actuators to achieve their designed performance in achanging environment. They have complex structural properties and mechanical responses. Many engineering problems, such as interface and edge phenomena, mechanical and electro-magnetic interaction/coupling and sensing, actuating and control techniques, arise in the development ofintelligent structures. Due to the multi-disciplinary nature ofthese problems, all ofthe classical sciences and technologies, such as applied mathematics, material science, solid and fluid mechanics, control techniques and others must be assembled and used to solve them. IUTAM weIl understands the importance ofthis emerging technology. An IUTAM symposium on Smart Structures and Structronic Systems (Chaired by U.
Multiplexed Control of Smart Structure Using Piezoelectric Actuators
| Author | : |
| Publisher | : |
| Total Pages | : 65 |
| Release | : 2008 |
| Genre | : Control theory |
| ISBN | : |
Active control of smart structures containing a large number of actuators and sensors presents a tradeoff between increased system performance and the cost and bulk of the required hardware and computational resources. A technique called multiplexed control offers advantages when software and hardware resources are scarce and performance specifications call for a large number of actuators and sensors. In structural control applications, in particular those using smart materials, it is often desirable to increase the number of actuators to enhance controllability. The focus of this research is to demonstrate real-time multiplexing on the hardware side of the actively controlled structure. Multiplexing effectively reduces the number of power units by sharing them among a large number of actuators according to a switching schedule. Multiplexing introduces periodicity in the closed-loop plant, requiring the use of periodic linear systems theory to tune as optimal quadratic regulator. In this thesis a multiplexed implementation is developed to control the three actuators mounted on single smart beam, where the control inputs are updated sequentially and cyclically instead of simultaneously, thus allowing the use of a single power amplifier. Focus was placed on the application of multiplexed control theory to a smart structure, including experimental procedures to obtain a plant model using system identification tools, and tuning of a discrete-time periodic quadratic regulator. An observer was also implemented. Simulations and real-time implementation validate the approach.
