Publisher's Synopsis
This book presents a generalized state-space theory for the analysis and synthesis of finite horizon suboptimal H... controllers. Expressions for a suboptimal controller are derived in a general setting and an approximate solution to the H... performance robustness problem is proposed. Chapter 1 treats nonlinear optimal control problems in which the cost functional is of the form of a quotient or a product of powers of definite integrals. Chapter 2 gives a criterion for the evaluation of the infimal H... norm in the finite horizon case. A general suboptimal control problem is then posed, and an expression for a suboptimal H... state feedback controller is derived. Chapter 3 develops expressions for a suboptimal H... output feedback controller in a very general case via the solution of two dynamical Riccati equations. Assuming the adequacy of linear expressions, chapter 4 gives an iterative procedure for the synthesis of a suboptimal H... controller which yields the required performance even under parameter variations.;Chapter 5 treats a general minimization problem in which the cost functional is a quotient of definite integrals. The results are useful in computing the actual performance of a given controller. In chapter 6, a design of the F/A-18A automatic carrier landing system is accomplished using finite horizon H... techniques. The book is based mainly on the author's research papers and presents a very practical point of view toward the applications. It can be used as a one semester or one quarter graduate level course in electrical, mechanical or chemical engineering.
