Dynamic Modeling and Control of Engineering Systems / by B. Kulakowski and others. [Electronic Resource]
Material type: Computer filePublication details: Cambridge : Cambridge University Press, 2007Edition: 3rd EdDescription: xiv, 486pISBN:- 9780511805417
- 620.0011Â K959D
Item type | Home library | Collection | Call number | Status | Notes | Date due | Barcode | Item holds | |
---|---|---|---|---|---|---|---|---|---|
e-Book | S. R. Ranganathan Learning Hub Online | Textbook | 620.0011 K959D (Browse shelf(Opens below)) | Available (e-Book For Access) | Platform : Cambridge Core | EB0473 |
Browsing S. R. Ranganathan Learning Hub shelves, Shelving location: Online, Collection: Textbook Close shelf browser (Hides shelf browser)
616.890 R116P The Philosophy of Psychiatry : A Companion | 620.001 13 Z34T Theory of Modeling and Simulation : Discrete Event And Iterative System Computational Foundations | 620.001 51 N143A Advanced Topics in Applied Mathematics : For Engineering and the Physical Sciences | 620.0011 K959D Dynamic Modeling and Control of Engineering Systems | 620.001171 C392M Modeling and Simulation of Systems Using MATLAB and Simulink | 620.001171 K847S Systems Engineering Principles and Practice | 620.0015154 R18F The Finite Element Method in Engineering |
This textbook is ideal for a course in engineering systems dynamics and controls. The work is a comprehensive treatment of the analysis of lumped parameter physical systems. Starting with a discussion of mathematical models in general, and ordinary differential equations, the book covers input/output and state space models, computer simulation and modeling methods and techniques in mechanical, electrical, thermal and fluid domains. Frequency domain methods, transfer functions and frequency response are covered in detail. The book concludes with a treatment of stability, feedback control (PID, lead-lag, root locus) and an introduction to discrete time systems. This new edition features many new and expanded sections on such topics as: solving stiff systems, operational amplifiers, electrohydraulic servovalves, using Matlab with transfer functions, using Matlab with frequency response, Matlab tutorial and an expanded Simulink tutorial. The work has 40% more end-of-chapter exercises and 30% more examples.
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