Introduction -- General Description of Hydraulic Servo-systems -- Physical Fundamentals of Hydraulics -- Physically Based Modelling -- Experimental Modelling (Identification) -- Hydraulic Control Systems Design -- Case Studies and Experimental Results -- Appendix A: Fluid Power Symbols -- Appendix B: Data and Catalogue Sheets -- Appendix C: Nonlinear Control Background.
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SUMMARY OR ABSTRACT
Text of Note
Hydraulic Servo-systems details the basic concepts of many recent developments of nonlinear identification and nonlinear control and their application to hydraulic servo-systems: developments such as feedback linearisation and fuzzy control. The principles, benefits and limitations associated with standard control design approaches such as linear state feedback control, feedforward control and compensation for static nonlinearities are also reviewed, because of their continued practical importance. Featuring: - theoretical (physically based) modelling of hydraulic servo-systems; - experimental modelling (system identification); - control strategies for hydraulic servo-systems; - case studies and experimental results. Appendices outline the most important fundamentals of (nonlinear) differential geometry and fuzzy control. The book is very application-oriented and provides the reader with detailed working procedures and hints for implementation routines and software tools. Hydraulic Servo-systems will interest scientists and qualified engineers involved in the analysis and design of hydraulic control systems, especially in advanced hydraulic industries, the aeronautical and space, and automotive industries. Advances in Industrial Control aims to report and encourage the transfer of technology in control engineering. The rapid development of control technology has an impact on all areas of the control discipline. The series offers an opportunity for researchers to present an extended exposition of new work in all aspects of industrial control.