Control Systems

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Control Systems is an inter-disciplinary engineering text that analyzes the effects and interactions of mathematical systems. This book is for third and fourth year undergraduates in an engineering program. Image credit   edit blurb

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This book requires that you first read Signals and Systems.

This book is intended for professional readers.

This book will discuss the topic of Control Systems, which is an interdisciplinary engineering topic. Methods considered here will consist of both "Classical" control methods, and "Modern" control methods. Also, discretely sampled systems (digital/computer systems) will be considered in parallel with the more common analog methods. This book will not focus on any single engineering discipline (electrical, mechanical, chemical, etc.), although readers should have a solid foundation in the fundamentals of at least one discipline.

This book will require prior knowledge of linear algebra, integral and differential calculus, and at least some exposure to ordinary differential equations. In addition, a prior knowledge of integral transforms, specifically the Laplace and Z transforms will be very beneficial. Also, prior knowledge of the Fourier Transform will shed more light on certain subjects. Wikibooks with information on calculus topics or transformation topics required for this book will be listed below:

• Calculus
• Linear Algebra
• Signals and Systems
• Digital Signal Processing

This book contains mathematical formulae that look better rendered as PNG.

Readers may wish to reference the Engineering Tables.

• Preface

• Introduction
• System Identification
• Digital and Analog
• System Metrics
• System Modeling

• Transforms
• Transfer Functions
• Poles and Zeros

• State-Space Equations
• Linear System Solutions
• Time-Variant System Solutions
• Digital State-Space
• Eigenvalues and Eigenvectors
• Standard Forms
• MIMO Systems
• Realizations

• Gain
• Block Diagrams
• Feedback Loops
• Signal Flow Diagrams
• Bode Plots
• Nichols Charts

• Stability
• State-Space Stability
• Discrete-Time Stability
• Routh-Hurwitz Criterion
• Jury's Test
• Root Locus
• Nyquist Stability Criterion

• Controllability and Observability
• System Specifications
• State Feedback
• Estimators and Observers
• Eigenvalue Assignment for MIMO Systems
• Controllers and Compensators
• Polynomial Design

• Adaptive Control

• State Machines
• Nonlinear Systems
• Common Nonlinearities

• Noise Driven Systems

• Digital Control Systems
• Discrete-Time Stability
• System Delays
• Sampled Data Systems
• Z Transform Mappings

• Linear Matrix Inequalities
• A List of Linear Matrix Inequalities in Control

• Examples

• Physical Models
• Transforms
• System Representations
• Matrix Operations
• Using MATLAB ®
• Using Octave
• Using Julia
• Using Scilab
• Using Python

• Glossary
• List of Equations
• Resources
• Licensing