3 edition of **Nonlinear systems** found in the catalog.

- 378 Want to read
- 21 Currently reading

Published
**1991**
by Prentice Hall in Englewood Cliffs, N.J
.

Written in English

- Nonlinear control theory.

**Edition Notes**

Includes bibliographical references and indexes.

Statement | Ronald R. Mohler. |

Classifications | |
---|---|

LC Classifications | QA402.3 .M634 1991 |

The Physical Object | |

Pagination | 2 v. : |

ID Numbers | |

Open Library | OL2204694M |

ISBN 10 | 0136234895, 0136235212 |

LC Control Number | 89026633 |

His current research focuses on nonlinear oscillations of conservative and vibro-impact systems and on nonlinear solitary waves. Valery N. Pilipchuk is a professor and Head of the Department of Applied Mathematics at the Ukrainian State Chemical and Technological University, Dnepropetrovsk, Ukraine. Nonlinear systems Khalil - Prentice-Hall, Probably the best book to start with nonlinear control Nonlinear systems S. Sastry - Springer Verlag, Good general book, a bit harder than Khalil’s Mathematical Control Theory - E.D. Sontag - Springer, .

Nonlinear Systems Tracking establishes the tracking theory, trackability theory, and tracking control synthesis for time-varying nonlinear plants and their control systems as parts of control theory. Treating general dynamical and control systems, including subclasses of input-output and state-space nonlinear systems, the book. Linear systems are easy to think about – at least when compared to nonlinear systems! A great many systems are approximately linear if we look at them the right way. Linear systems give rise to a rich ground of understanding and are natural to think about and .

Operator-Based Nonlinear Control Systems is recommended for students and professionals in control theory engineering and applied mathematics. Working with this expertly written and organized book, they will learn how to obtain robust right coprime factorization for modeled plants. Preface This text is intended for a first-year graduate-level course on nonlinear systems. It may also he used for self-study or reference by engineers and applied mathe- maticians. It is an outgrowth of my experience in teaching the nonlinear systems course at Michigan State University, East Lansing, several times since

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This is simply the best book written on nonlinear control theory. The contents form the basis for feedback linearization techniques, nonlinear observers, sliding mode control, understanding relative degree, nonminimum phase systems, exact linearization, and a host of other topics.

A careful reading of this book will provide vast rewards. A course on nonlinear systems analysis will cover material from Parts 1, 2, and 3, while a course on nonlinear control will cover material from Parts 1, 2, and 4. * To update the material of the book to include topics or results that have proven to be useful in nonlinear control design in recent years/5(34).

Nonlinear Systems Overview: In this section we start the book by giving an overview to the model of a system that will form the foundations for future discussion, we talk about linear systems theory based upon what is called the superposition principles of additivity and homogeneity.

The book shows strong connections of the subject matter with optimization, dynamical systems as well as the classical themes (Lyapunov theory).

Cite 2 Recommendations. This book is written is such a way that the level of mathematical sophistication builds up from chapter to chapter. It has been reorganized into four parts: basic analysis, analysis of feedback systems, advanced analysis, and nonlinear feedback control.

Updated content includes subjects which have proven useful in nonlinear control design in recent years—new in the 3rd edition are: expanded 4/5(1). Nonlinear systems with convergent Volterra series representations will be considered.

New definitions of stability and stabilizability, and the H ∞ norm for nonlinear systems will be given via the Laplace transform of the corresponding Volterra kernel. Second-order and Nonlinear systems book systems are used as examples to deal with the stability in detail.

This book is written is such a way that the level of mathematical sophistication builds up from chapter to chapter. It has been reorganized into four parts: basic analysis, analysis of Nonlinear systems book systems, advanced analysis, and nonlinear feedback control.

Updated content includes subjects which have proven useful in nonlinear control design in recent years-- new in the 3rd edition are: expanded 4/5(1). When M. Vidyasagar wrote the first edition of Nonlinear Systems Analysis, most control theorists considered the subject of nonlinear systems a then, advances in the application of differential geometric methods to nonlinear analysis have matured to a stage where every control theorist needs to possess knowledge of the basic techniques because virtually all physical systems are.

The text evolves from courses given by the author in the UK and the United States. It introduces the mathematical properties of nonlinear systems, mostly difference and differential equations, as an integrated theory, rather than presenting isolated fashionable : P.

Drazin. Nonlinear systems, bifurcations and symmetry breaking. A nonlinear system is a set of nonlinear equations, which may be algebraic, functional, ordinary differential, partial differential, integral or a combination of these.

The system may depend on given parameters. This book is written is such a way that the level of mathematical sophistication builds up from chapter to chapter. It has been reorganized into four parts: basic analysis, analysis of feedback systems, advanced analysis, and nonlinear feedback control.

The book should also appeal to applied mathematicians and computer scientists interested in nonlinear systems. It can be used as a textbook, but should also be valuable as a reference. The well-written introduction and chapter 2 present the basic material on nonlinear systems of ordinary differential equations that should be familiar to read ers.

There has been a great deal of excitement in the last ten years over the emer gence of new mathematical techniques for the analysis and control of nonlinear systems: Witness the emergence of a set of simplified tools for the analysis of bifurcations, chaos, and other complicated dynamical behavior and the develop ment of a comprehensive theory of geometric nonlinear : Springer-Verlag New York.

this book. I believe that from these themes will be forged many useful engineering tools for dealing with nonlinear systems in the future. But a note of caution is appropriate. Nonlinear systems do not yield easily to analysis, especially in the sense that for a given analytical method it.

There has been a great deal of excitement in the last ten years over the emer- gence of new mathematical techniques for the analysis and control of nonlinear systems: Witness the emergence of a set of simplified tools for the analysis of bifurcations, chaos, and other complicated dynamical behavior and the develop- ment of a comprehensive theory of geometric nonlinear/5.

Nonlinear systems of transport and chemical kinetics analyzed by the generalized Marcelin–de Donder equations consider two competing forward and backward directions of an elementary process.

These equations characterize the flow of matter and energy through the energy barrier and contain potentials F = (− μ/T,1/T) in exponential forms.

Substitute the value of the variable into the nonlinear equation. When you plug 3 + 4y into the second equation for x, you get (3 + 4y)y = Solve the nonlinear equation for the variable. When you distribute the y, you get 4y 2 + 3y = 6. Because this equation is quadratic, you must get 0 on one side, so subtract the 6 from both sides to get 4y 2 + 3y – 6 = You have to use the.

This book is written is such a way that the level of mathematical sophistication builds up from chapter to chapter.

It has been reorganized into four parts: basic analysis, analysis of feedback systems, advanced analysis, and nonlinear feedback control/5. A course on nonlinear systems analysis will cover material from Parts 1, 2, and 3, while a course on nonlinear control will cover material from Parts 1, 2, and 4.

To update the material of the book to include topics or results that have proven to be useful in nonlinear control design in recent : Hassan K. Khalil. This book focuses on several key aspects of nonlinear systems including dynamic modeling, state estimation, and stability analysis.

It is intended to provide a wide range of readers in applied mathematics and various engineering disciplines an excellent survey of recent studies of nonlinear systems. With its thirteen chapters, the book brings together important contributions from renowned Author: Mahmut Reyhanoglu.

Nonlinear systems by Drazin, P. G. Publication date Topics Borrow this book to access EPUB and PDF files. IN COLLECTIONS. Books to Borrow. Books for People with Print Disabilities.

Internet Archive Books. Uploaded by stationcebu on Decem SIMILAR ITEMS (based on metadata) Pages: This book presents the analysis of nonlinear phenomena as a long-standing challenge for research in basic and applied science as well as engineering, and discusses nonlinear differential and differential equations, bifurcation theory for periodic orbits and global connections.The theories of bifurcation, chaos and fractals as well as equilibrium, stability and nonlinear oscillations, are part of the theory of the evolution of solutions of nonlinear equations.

A wide range of mathematical tools and ideas are drawn together in the study of these solutions, and the results applied to diverse and countless problems in the.