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Showing 1 - 8 of 8 matches in All Departments
There are many books on advanced control for specialists, but not many present these topics for non-specialists. Assuming only a basic knowledge of automatic control and signals and systems, this second edition of Optimal and Robust Control offers a straightforward, self-contained handbook of advanced topics and tools in automatic control. The book deals with advanced automatic control techniques, paying particular attention to robustness-the ability to guarantee stability in the presence of uncertainty. It explains advanced techniques for handling uncertainty and optimizing the control loop. It also details analytical strategies for obtaining reduced order models. The authors then propose using the Linear Matrix Inequality (LMI) technique as a unifying tool to solve many types of advanced control problems. Topics covered in the book include, LQR and H approaches Kalman and singular value decomposition Open-loop balancing and reduced order models Closed-loop balancing Positive-real systems, bounded-real systems, and imaginary-negative systems Criteria for stability control Time-delay systems This easy-to-read text presents the essential theoretical background and provides numerous examples and MATLAB (R) exercises to help the reader efficiently acquire new skills. Written for electrical, electronic, computer science, space, and automation engineers interested in automatic control, this book can also be used for self-study of for a one-semester course in robust control. This fully renewed second edition of the book also includes new fundamental topics such as Lyapunov functions for stability, variational calculus, formulation in terms of optimization problems of matrix algebraic equations, negative-imaginary systems, and time-delay systems.
This book comprises the most recent advanced results on nonlinear electronic circuits, and the contents range from networks, synchronization, memristors to several other topics. Both theory and advanced timely results are included. It provides an overview of popular themes in the field of nonlinear dynamics of electronic circuits with contributions from outstanding scientists.
This book focuses on a class of uncertain systems that are called imperfect, and shows how much systems can regularly work if an appropriate control strategy is adopted. Along with some practical well studied examples, a formalization of the models for imperfect system is considered and a control strategy is proposed. Experimental case studies on electromechanical systems are also included.New concepts, experimental innovative circuits and laboratory details allow the reader to implement at low cost the outlined strategy. Emergent topics in nonlinear device realization are emphasized with the aim to allow researchers and students to perform experiments with large scale electromechanical systems. Moreover, the possibility of using imperfections and noise to generate nonlinear strange behavior is discussed.
This book deals with nonlinear dynamics of electronic circuits, which could be used in robot control, secure communications, sensors and synchronized networks. The genesis of the content is related to a course on complex adaptive systems that has been held at the University of Catania since 2005. The efforts are devoted in order to emulate with nonlinear electronic circuits nonlinear dynamics. Step-by-step methods show the essential concepts of complex systems by using the Varela diagrams and accompanying MATLAB (R) exercises to reinforce new information. Special attention has been devoted to chaotic systems and networks of chaotic circuits by exploring the fundamentals, such as synchronization and control. The aim of the book is to give to readers a comprehensive view of the main concepts of nonlinear dynamics to help them better understand complex systems and their control through the use of electronics devices.
This brief provides a source of instruction from which students can be taught about the practicalities of designing and using chaotic circuits. The text provides information on suitable materials, circuit design and schemes for design realization. Readers are then shown how to reproduce experiments on chaos and to design new ones. The text guides the reader easily from the basic idea of chaos to the laboratory test providing an experimental basis that can be developed for such applications as secure communications. This brief provides introductory information on sample chaotic circuits, includes coverage of their development, and the gallery section provides information on a wide range of circuits. "Concise Guide to Chaotic Electronic Circuits" will be useful to anyone running a laboratory class involving chaotic circuits and to students wishing to learn about them."
The book focuses on the role of the Leonardo da Vinci projects and inventions, specifically the interdisciplinarity of his studies that represents perhaps the first example of the paradigm of complex systems engineering. The projects are characterized within a modern conception of his thinking, looking at the main motivations behind his machines. The book also proposes a set of experimental realizations of the models made mainly in wood, using the actual concept of automatic control and microcontroller technology emphasizing that the Leonardo machines can be seen in agreement with modern current technology.The remote control of each machine is considered and the behavior of each monitored. Machines are revisited based on the transmission principle that adopts microcontrollers and bluetooth devices, studying the equipment behind the actuation of the systems. Thus, the paradigm of each machine is maintained unaltered while the latest technologies show the relevance of such inventions in the modern era. The study also stimulated more applications and future projects that can start from the original Leonardo projects and then proceed to the next centuries, providing readers simple and efficient ideas to innovate his projects using modern low-cost microcontrollers.
The book focuses on the role of the Leonardo da Vinci projects and inventions, specifically the interdisciplinarity of his studies that represents perhaps the first example of the paradigm of complex systems engineering. The projects are characterized within a modern conception of his thinking, looking at the main motivations behind his machines. The book also proposes a set of experimental realizations of the models made mainly in wood, using the actual concept of automatic control and microcontroller technology emphasizing that the Leonardo machines can be seen in agreement with modern current technology.The remote control of each machine is considered and the behavior of each monitored. Machines are revisited based on the transmission principle that adopts microcontrollers and bluetooth devices, studying the equipment behind the actuation of the systems. Thus, the paradigm of each machine is maintained unaltered while the latest technologies show the relevance of such inventions in the modern era. The study also stimulated more applications and future projects that can start from the original Leonardo projects and then proceed to the next centuries, providing readers simple and efficient ideas to innovate his projects using modern low-cost microcontrollers.
This book deals with nonlinear dynamics of electronic circuits, which could be used in robot control, secure communications, sensors and synchronized networks. The genesis of the content is related to a course on complex adaptive systems that has been held at the University of Catania since 2005. The efforts are devoted in order to emulate with nonlinear electronic circuits nonlinear dynamics. Step-by-step methods show the essential concepts of complex systems by using the Varela diagrams and accompanying MATLAB (R) exercises to reinforce new information. Special attention has been devoted to chaotic systems and networks of chaotic circuits by exploring the fundamentals, such as synchronization and control. The aim of the book is to give to readers a comprehensive view of the main concepts of nonlinear dynamics to help them better understand complex systems and their control through the use of electronics devices.
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