Name | Last modified | Size | Description | |
---|---|---|---|---|
Parent Directory | - | |||
robust_control_ieee.pdf | 2010-07-15 10:06 | 1.0M | ||
README.html | 2010-07-15 10:06 | 1.1K | ||
CORRECTION.txt | 2010-07-15 10:06 | 186 | ||
IEEE Transactions on Automatic Control
33 (12),
(1988) pp. 1092-1105
Abstract
Using a high-purity distillation column as an example, the physical reason for the poor conditioning and its implications on control system design and performance are explained. It is shown that an acceptable performance/robustness tradeoff cannot be obtained by simple loop-shaping techniques (using singular values) and that a good understanding of the model uncertainty is essential for robust control system design. Physically motivated uncertainty descriptions (actuator uncertainties) are translated into the H∞/structured singular value framework, which is demonstrated to be a powerful tool to analyze and understand the complex phenomena