Introduction -- Linear System Tools -- Structural Mappings of Bilinear Transformations -- Existence Conditions of H-infinity Suboptimal Controllers -- Solutions to Discrete-time Riccati Equations -- Infima in Continuous-time H-infinity Optimization -- Solutions to Continuous-time H-infinity Problem -- Continuous-time H-infinity Almost Disturbance Decoupling -- Robust and Perfect Tracking of Continuous-time Systems -- Infima in Discrete-time H-infinity Optimization -- Solutions to Discrete-time H-infinity Problem -- Discrete-time H-infinity Almost Disturbance Decoupling -- Robust and Perfect Tracking of Discrete-time Systems -- Design of a Hard Disk Drive Servo System -- Design of a Piezoelectric Actuator System -- Design of a Gyro-stabilized Mirror Targeting System.
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H-infinity control theory deals with the minimization of the H-infinity-norm of the transfer matrix from an exogenous disturbance to a pertinent controlled output of a given plant. Robust and H-infinity Control examines both the theoretical and practical aspects of H-infinity control from the angle of the structural properties of linear systems. Constructive algorithms are provided for finding solutions to: - general singular H-infinity control problems; - general H-infinity almost disturbance decoupling problems; - robust and perfect tracking problems. Theories are also applied to real-life problems with actual implementations. This book can be used for graduate courses in departments of aeronautics and astronautics, applied mathematics, chemical engineering, electrical engineering and mechanical engineering. It should also be of great value to engineers practising in industry.