Multi-Stage and Multi-Time Scale Feedback Control of Linear Systems with Applications to Fuel Cells

This book provides a comprehensive study of multi-stage and multi-time scale design of feedback controllers for linear dynamic systems. It examines different types of controllers as can be designed for different parts of the system (subsystems) using corresponding feedback gains obtained by performi...

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Detaylı Bibliyografya
Asıl Yazarlar: Radisavljević-Gajić, Verica (Yazar), Milanović, Miloš (Yazar), Rose, Patrick (Yazar)
Müşterek Yazar: SpringerLink (Online service)
Materyal Türü: e-Kitap
Dil:İngilizce
Baskı/Yayın Bilgisi: Cham : Springer International Publishing : 2019.
Imprint: Springer,
Edisyon:1st ed. 2019.
Seri Bilgileri:Mechanical Engineering Series,
Konular:
Control engineering.
Engineering design.
Engines.
Energy storage.
Control and Systems Theory.
Engineering Design.
Engine Technology.
Mechanical and Thermal Energy Storage.
Online Erişim:Full-text access
Diğer Bilgiler
Özet:This book provides a comprehensive study of multi-stage and multi-time scale design of feedback controllers for linear dynamic systems. It examines different types of controllers as can be designed for different parts of the system (subsystems) using corresponding feedback gains obtained by performing calculations (design) only with subsystem (reduced-order) matrices.The advantages of the multi-stage/multi-time scale design are presented and conditions for implementation of these controllers are established. Complete derivations and corresponding design techniques are presented for two-stage/two-time-scale, three-stage/three-time scale, and four-stage/four-time-scale systems. The techniques developed have potential applications to a large number of real physical systems. The design techniques are demonstrated on examples of mathematical models of fuel cells, especially the proton exchange membrane fuel cell. Explains how different types of controllers can be designed for different parts of the system (subsystems) using feedback gains obtained by calculations (design) with only subsystem (reduced‐order) matrices; Illustrates a reduction of computational requirements because all numerical operations are done with matrices of the reduced‐order corresponding to the subsystems; Details how very accurate computations are performed with well‐conditioned lower‐order matrices; Discusses steps to facilitate robustness and reliability as well as improved feedback control loop security, important for cyber physical systems.
Fiziksel Özellikler:XI, 214 p. 23 illus., 16 illus. in color. online resource.
ISBN:9783030103897
ISSN:2192-063X
DOI:10.1007/978-3-030-10389-7

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