Basic concepts of linear system control
Definitions, examples, and solved exercises
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This book provides a comprehensive guide to control systems, emphasizing both frequency-domain and state-space methods for analysis and design. Key topics include frequency-domain controller design, where techniques such as Bode plots, Nyquist plots, and root locus are used to assess system stability and optimize performance. It also covers state-space representation, offering a unified framework for analyzing dynamic systems, especially for multiple-input multiple-output (MIMO) systems. The course delves into state-space analysis, focusing on aspects like controllability, observability, stabi...
This book provides a comprehensive guide to control systems, emphasizing both frequency-domain and state-space methods for analysis and design. Key topics include frequency-domain controller design, where techniques such as Bode plots, Nyquist plots, and root locus are used to assess system stability and optimize performance. It also covers state-space representation, offering a unified framework for analyzing dynamic systems, especially for multiple-input multiple-output (MIMO) systems. The course delves into state-space analysis, focusing on aspects like controllability, observability, stability, and system response. Furthermore, state feedback control is explored as a means to enhance system dynamics through pole placement. The course concludes with the design of state observers, such as Luenberger observers and Kalman filters, to estimate internal states for effective control. These topics together lay the foundation for analyzing and optimizing dynamic systems in fields likecontrol, automation, and robotics.
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