Title :
Mixed l1/H∞ controllers for SISO discrete time systems
Author_Institution :
Dept. of Electr. Eng., Pennsylvania State Univ., University Park, PA, USA
Abstract :
A successful controller design paradigm must take into account both model uncertainty and design specifications. Model uncertainty can be addressed using either H∞ or l1 robust control theory, depending upon the uncertainty characterization. However, these frameworks cannot accommodate the realistic case where the design specifications include both time and frequency domain constraints. In this paper the author addresses these problems using a mixed l1/H∞ approach. This approach allows for minimising the worst-case peak output due to a persistent disturbance, while, at the same time, satisfying an H∞-norm constraint upon some closed-loop transfer function of interest. The main result of the paper shows that mixed l 1/H∞ optimal controllers can be obtained by solving a sequence of problems, each one consisting of a finite-dimensional convex optimisation and a standard, unconstrained H ∞ problem
Keywords :
closed loop systems; control system synthesis; discrete time systems; frequency-domain synthesis; optimal control; optimisation; time-domain synthesis; transfer functions; H∞-norm constraint; SISO discrete time systems; closed-loop transfer function; design specifications; finite-dimensional convex optimisation; frequency domain constraints; mixed l1/H∞ controllers; model uncertainty; persistent disturbance; robust control theory; time domain constraints; uncertainty characterization; worst-case peak output; Control systems; Discrete time systems; Energy measurement; Extraterrestrial measurements; Q measurement; Stability; Time measurement; Transfer functions; Upper bound;
Conference_Titel :
Decision and Control, 1993., Proceedings of the 32nd IEEE Conference on
Conference_Location :
San Antonio, TX
Print_ISBN :
0-7803-1298-8
DOI :
10.1109/CDC.1993.325194
