Title :
A multi-level algorithm for the finite horizon LQ optimal control problem with assigned final state: additive and multiplicative procedures
Author_Institution :
Dept. of Electron., Comput. Sci., & Syst., Bologna Univ.
Abstract :
A multi-level computational framework which overcomes the dimensionality constraint intrinsic in the solution by pseudoinversion of the discrete-time finite horizon LQ optimal control problem with assigned final state is presented. Depending on design priorities, the algorithm can be based on either of two different nesting procedures: an additive procedure or a multiplicative procedure. In both cases, the solution of the infinite horizon problem can be retrieved if some rather extensive conditions are met. The algorithmic framework holds independently of the control weighting matrix being regular, singular, or zero. Moreover, the devised algorithm differs from those available in the literature in that it handles non-left-invertible systems with no further complications
Keywords :
control system synthesis; discrete time systems; infinite horizon; linear quadratic control; matrix algebra; additive procedure; assigned final state; control weighting matrix; design priorities; discrete-time finite horizon LQ optimal control problem; multilevel algorithm; multiplicative procedure; pseudoinversion; Algorithm design and analysis; Application software; Computer science; Control systems; Infinite horizon; Linear systems; Optimal control; Weight control;
Conference_Titel :
Control and Automation, 2006. MED '06. 14th Mediterranean Conference on
Conference_Location :
Ancona
Print_ISBN :
0-9786720-1-1
Electronic_ISBN :
0-9786720-0-3
DOI :
10.1109/MED.2006.328747
